| Building Material and Construction – Session 1 | |
| Session Topics : 9 Active Learning Outcomes : 12 |
Summary Quiz : 9 Video Play Time : ~14 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Building materials | 15 | ALO 1.1.1-1: Define Building Materials ALO 1.1.1-2: Classify Building Materials |
| Classification of Rocks | 52 | ALO 1.1.2-1: Define the term Stone ALO 1.1.2-2: Classify Rocks: i. Geological Classification ii. Physical Classification iii. Chemical Classification |
| Tests of stones | 51 | ALO 1.1.3-1: Recall the following tests of stone: i. Acid test ii. Hardness test iii. Water absorption test iv. Crushing test v. Attrition test |
| Qualities of Stone | 14 | ALO 1.2.1-1: Recall the following qualities of a good building Stone: i. Crushing strength ii. Appearance iii. Hardness iv. Specific gravity v. Percentage wear |
| Stone Quarrying | 31 | ALO 1.2.2-1: Define the term Stone quarrying ALO 1.2.2-1: Describe the following methods of quarrying: i. Quarrying with hard tools ii. Quarrying with channeling machine iii. Quarrying by blasting |
| Dressing of Stones | 15 | ALO 1.2.3-1: Define the term Dressing ALO 1.2.3-2: Recall the purpose of Dressing |
| Deterioration of Stones | 22 | ALO 1.3.1-1: Recall the Deterioration of Stones ALO 1.3.1-2: Describe the following causes of decay of stones: i. Alternate wetness and drying ii. Impurities in atmosphere iii. Rain water iv. Temperature variations |
| Preservation of Stones | 5 | ALO 1.3.2-1: Define the term Preservatives |
| 8 | ALO 1.3.2-2: List and recall types of Preservatives: i. Coal tar ii. Paint iii. Linseed oil iv. Solution of baryta |
|
| Artificial Stones | 6 | ALO 1.3.3-1: Recall the procedure for making an Artificial stone |
| 4 | ALO 1.3.3-2: Recall the forms of Artificial Stones | |
| 3 | ALO 1.3.3-3: List and recall the advantages and disadvantages of Artificial Stones |
| Building Material and Construction – Session 2 | |
| Session Topics : 11 Active Learning Outcomes : 15 |
Summary Quiz : 11 Video Play Time : ~7 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Manufacturing of Bricks | 19 | ALO 2.1.1-1: Define the term Brick |
| 2 | ALO 2.1.1-2: Recall the composition of Brick Earth | |
| 69 | ALO 2.1.1-3: Recall the manufacturing procedure of the clay: i. Preparation of clay ii. Moulding iii. Drying iv. Burning |
|
| Test of bricks | 22 | ALO 2.1.2-1: Recall the following tests of Brick: i. Dimension test ii. Compressive strength test iii. Water absorption test iv. Efflorescence test |
| Classification of Bricks | 41 | ALO 2.1.3-1: Recall the following types of Brick: i. On the basis of the burning ii. On the basis of the Compressive strength iii. On the basis of the Physical property iv. On the basis of special types pf Bricks |
| Harmful Ingredient in Bricks | 15 | ALO 2.2.1-1: Recall the following Harmful Ingredient in Bricks: i. Sulphur ii. Pyrite iii. Pebbles iv. Alkalis v. Lumps of Lime |
| Defects in Brick | 8 | ALO 2.2.2-1: Recall different Defects in Bricks: i. Chuffs ii. Bloating iii. Cracks iv. Blistering |
| Cement and its uses | 19 | ALO 3.1.1-1: Define the term Cement |
| Composition of Cement | 21 | ALO 3.1.2-1: Recall the Composition of Portland Cement |
| Bouge’s Compound | 10 | ALO 3.1.3-1: Recall the following Bouge’s Compound: i. Tricalcium aluminate ii. Tetra-calcium alumino-ferrite iii. Tricalcium silicate iv. Dicalcium silicate |
| Testing of Cement | 110 | ALO 3.2.1-1: Recall the following Test of Cement: i. Field Test ii. Lab Test |
| Manufacturing of cement | 19 | ALO 3.2.2-1: Recall the following Processes of Manufacturing of Cement: i. Dry Process ii. Wet Process |
| 2 | ALO 3.2.2-2: Compare Dry Cement and Wet Cement | |
| Types of Cement | 4 | ALO 3.2.3-1: Classify the Cement |
| 70 | ALO 3.2.3-2: Recall the following types of Cement: i. Ordinary Portland Cement ii. Rapid hardening Portland Cement iii. Calcium chloride Cement iv. Quick setting Portland Cement v. Low heat Portland Cement vi. Portland puzzolana Cement vii. Portland slag Cement |
| Building Material and Construction – Session 3 | |
| Session Topics : 10 Active Learning Outcomes : 12 |
Summary Quiz : 10 Video Play Time : ~8 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Concrete and its types | 21 | ALO 4.1.1-1: Define the term Concrete ALO 4.1.1-2: List and recall different Concrete |
| Manufacturing of mix | 98 | ALO 4.1.2-1: Recall the following manufacturing process of Mix (concrete):i. Nominal Mix ii. Design Mix |
| Production of Concrete | 76 | ALO 4.1.3-1: List and recall various steps for the production of concrete: i. Batching ii. Mixing and Transportation iii. Placing and Compaction iv. Finishing v. Curing |
| Factors affecting strength of concrete | 35 | ALO 4.2.1-1: Recall various factors affecting the strength of Concrete: i. Water cement ratio ii. Size of specimen iii. Air voids iv. Age of cement v. Cement aggregate ratio vi. Types and Size of aggregates |
| Testing of Concrete | 47 | ALO 4.2.2-1: Describe the following Tests of Concrete: i. Compressive strength test ii. Flexural Strength test iii. Splitting tensile strength test |
| Workability of Concrete | 30 | ALO 4.2.3-1: Define the term Workability ALO 4.2.3-2: Recall the factors affecting Workability of Concrete |
| 53 | ALO 4.2.3-3: Recall different tests of Workability of Concrete | |
| Basics of Lime | 8 | ALO 5.1.1-1: Define the term Lime |
| 19 | ALO 5.1.1-2: Recall the following terms related to Lime: i. Calcination ii. Hydraulicity iii. Slaking iv. Slaked lime v. Quick lime |
|
| Classification of Lime | 45 | ALO 5.1.2-1: Recall the types of Lime on the basis of: i. Impurities ii. Indian Standard |
| Manufacturing of Lime | 32 | ALO 5.2.1-1: Recall the following manufacturing processes of Lime: i. Clamp ii. Intermittent kiln iii. Continuous kiln |
| Tests of Lime | 20 | ALO 5.2.2-1: Describe the following tests of Lime: i. Visual properties ii. Acid test iii. Soundness iv. Workability test v. Ball test |
| Building Material and Construction – Session 4 | |
| Session Topics : 19 Active Learning Outcomes : 20 |
Summary Quiz : 19 Video Play Time : ~7 Hours |
| Suggested Completion : 4 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Timber and its classification | 7 | ALO 6.1.1-1: Define the term Timber |
| 20 | ALO 6.1.1-3: Recall the cross-section of Exogenous Tree | |
| Processing of Timber | ||
| Defects in Timber | 32 | ALO 6.1.3-1: Recall the following defects in Timber: i. Defects due to Seasoning ii. Defects due to Conversion iii. Defects due to Fungi and Insects iv. Defects due to Natural forces |
| Industrial Timber | 7 | ALO 6.2.1-1: Recall different market forms of Timber |
| 14 | ALO 6.2.1-2: Define the term Plywood ALO 6.2.1-3: Recall different uses of Plywood | |
| Qualities of Good Timber | 9 | ALO 6.2.2-1: Recall the following Qualities of Timber: i. Appearance ii. Colour iii. Durability iv. Elasticity v. Fire Resistance |
| Aggregates | 32 | ALO 7.1.1-1: Define the term Aggregates ALO 7.1.1-2: List and recall different properties of Aggregates |
| Classification of Aggregates | 34 | ALO 7.1.2-1: Recall different types of Aggregates on the basis of: i. Size ii. Shape iii. Sources |
| Tests of Aggregates | 45 | ALO 7.1.3-1: Describe the following tests of Aggregates: i. Flakiness and Elongation Index ii. Crushing Strength Test iii. Impact Test iv. Abrasion Test |
| Puzzolana and its types | 58 | ALO 7.2.1-1: Define and classify Puzzolana ALO 7.2.1-2: Recall the following types of Artificial Puzzolana: i. Fly Ash ii. Blast Furnace Slag iii. Rice Husk Ash iv. Surkhi v. Metakaolin |
| Introduction to Paint | 21 | ALO 8.1.1-1: Define the term Paint ALO 8.1.1-2: Recall the Characteristics of Ideal Paint ALO 8.1.1-3: Recall the Pigment Volume Concentration Number |
| Ingredients of Oil Paint | 33 | ALO 8.1.2-1: Recall the following Ingredients of Oil Paint: i. Base ii. Carrier iii. Drier iv. Colouring Pigment v. Thinner vi. Extender |
| Types of Paint | 35 | ALO 8.1.3-1: List and recall different types of Paints: i. Aluminum Paint ii. Bituminous Paint iii. Plastic Paint iv. Emulsion Paint |
| Defects in Painting | 13 | ALO 8.2.1-1: Recall the following Defects in Painting: i. Blistering ii. Fading iii. Flaking iv. Crazing v. Wrinkling |
| Painting on Surfaces | 27 | ALO 8.2.2-1: Recall the Painting on different Surfaces: i. Painting of Plastered surface ii. Painting of Wood surface iii. Painting of Metal surface |
| Introduction to Varnish | 11 | ALO 8.3.1-1: Define the term Varnish ALO 8.3.1-2: Recall the Characteristics of Varnish |
| Ingredients of Varnish | 11 | ALO 8.3.2-1: Recall the following Ingredients of Varnish: i. Resin ii. Drier iii. Thinner |
| Types of Varnish | 14 | ALO 8.3.3-1: List and recall following types of Varnish: i. Oil Varnish ii. Spirit Varnish iii. Turpentine Varnish iv. Water Varnish |
| Types of Polishes | 8 | ALO 8.4.1-1. Recall the following types of Polish: i. Furniture Polish ii. Wax Polish iii. French Polish |
| Distemper and its Ingredients | 10 | ALO 8.4.2-1: Define the term Distemper ALO 8.4.2-2: Recall the various Ingredients of Distemper |
| Building Material and Construction – Session 5 | |
| Session Topics : 14 Active Learning Outcomes : 17 |
Summary Quiz : 14 Video Play Time : ~6 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Forms of Iron | 41 | ALO 9.1.1-1: Recall the following terms related to Forms of Iron: i. Pig Iron ii. Cast Iron iii. Wrought Iron |
| Types of Steel | 19 | ALO 9.1.2-1: Recall the following types of Steel: i. Low carbon steel ii. Medium carbon steel iii. High carbon steel |
| Alloy of Steel | 16 | ALO 9.1.3-1: Recall the following Alloy of Steel: i. Stainless steel ii. Invar steel iii. Manganese steel |
| Defects in steel | 8 | ALO 9.2.1-1: Recall the following Defects in Steel: i. Cavity Holes ii. Segregation iii. Cold shortness iv. Red shortness |
| Introduction to aluminimum | 8 | ALO 9.2.2-1: Recall the Manufacturing of Aluminium |
| 5 | ALO 9.2.2-2: Recall the Properties of Aluminium | |
| 7 | ALO 9.2.2-3: List various uses of Aluminium | |
| Gypsum | 14 | ALO 10.1.1-1: Define the term Gypsum ALO 10.1.1-2: Recall the Composition of Gypsum |
| 16 | ALO 10.1.1-3: List various uses of Gypsum ALO 10.1.1-4: Recall the Properties of Gypsum | |
| Plaster of Paris | 20 | ALO 10.1.2-1: Define the term Plaster of Paris ALO 10.1.2-2: Recall the Formation of Plaster of Paris ALO 10.1.2-3: Recall the Properties and Uses of Plaster of Paris |
| Heat Insulating Materials | 21 | ALO 10.1.3-1: Recall the Properties of Heat Insulating Materials ALO 10.1.3-2: List and recall different Insulating Materials |
| Sound Absorbent Materials | 15 | ALO 10.1.4-1: Recall the Properties of Sound Absorbent Materials ALO 10.1.4-2: List various uses of Sound absorbent Materials |
| Plastics | 49 | ALO 10.2.1-1: Define the term Polymerization ALO 10.2.1-2: Classify Plastic ALO 10.2.1-3: Recall the Properties of Plastic ALO 10.2.1-4: Recall the uses of Plastic |
| Glass and its types | 47 | ALO 10.2.2-1: Recall the Composition of Glass ALO 10.2.2-2: Recall the Properties of Glass ALO 10.2.2-3: List various type of Glass |
| Asphalt | 22 | ALO 10.3.1-1: Define and Classify the term Asphalt ALO 10.3.1-2: Recall the Properties of Asphalt ALO 10.3.1-3: List and recall the uses of Asphalt |
| Bitumen | 13 | ALO 10.3.2-1: Define the term Bitumen ALO 10.3.2-2: Recall the forms of Bitumen |
| Tar | 13 | ALO 10.3.4-1: Define the term Tar ALO 10.3.4-2: Recall the types of Tar ALO 10.3.4-3: Recall the comparison between Asphalt, Bitumen, and Tar |
| Building Material and Construction – Session 6 | |
| Session Topics : 6 Active Learning Outcomes : 10 |
Summary Quiz : 6 Video Play Time : ~6 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Types of Building | 47 | ALO 11.1.1-1: Recall the following types of Building: i. Group A ii. Group B iii. Group C iv. Group D v. Group E vi. Group F vii. Group G viii. Group H ix. Group I |
| Components of Building | 21 | ALO 11.1.2-1: Recall the Basic functional requirements of a Building |
| 21 | ALO 11.1.2-2: Recall the following Components of a Building: i. Foundation ii. Plinth iii. Super-structure |
|
| Structure System of Building | 21 | ALO 11.1.3-1: Recall the following Structure of a Building: i. Load Bearing structure ii. Framed structure iii. Composite structure |
| Foundation and its Purpose | 31 | ALO 11.2.1-1: Define the term Foundation ALO 11.2.1-2: Recall the Purpose of Foundation |
| 7 | ALO 11.2.1-3: Recall the Depth of Foundation | |
| 48 | ALO 11.2.1-4: Recall the Bearing capacity of a Soil | |
| Shallow Foundation | 53 | ALO 11.2.2-1: Define the following types of Shallow Foundation: i. Footings ii. Raft/Mat Foundation iii. Grillage Foundation |
| Deep Foundation | 66 | ALO 11.2.3-1: Classify the Piles based on: i. Function ii. Material and Composition |
| 21 | ALO 11.2.3-2: Recall the Well Foundation/Caisson |
| Building Material and Construction – Session 7 | |
| Session Topics : 6 Active Learning Outcomes : 8 |
Summary Quiz : 6 Video Play Time : ~4 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Stone Masonry | 34 | ALO 12.1.1-1: Define the term Masonry ALO 12.1.1-2: Recall the following terms related to Masonry: i. Course ii. Header iii. Stretcher iv. Quoins v. Face and Back vi. Queen closer and King closer vii. Bat |
| Classification of Stone Masonry | 38 | ALO 12.1.2-1: Recall the following types of Stone Masonry: i. Rubble Masonry ii. Ashlar Masonry |
| Joints in Stone Masonry | 25 | ALO 12.1.3-1: Recall the following Joints in Stone Masonry: i. Butt Joint ii. Lapped Joint iii. Grooved Joint iv. Cramped Joint v. Dowel Joint |
| Introduction to Brick Masonry | 11 | ALO 12.2.1-1: Define the term Brick Masonry |
| 7 | ALO 12.2.1-2: Recall the following terms related to Brick Masonry: i. Course ii. Header iii. Stretcher iv. Quoins v. Face and Back vi. Queen closer and King closer vii. Bat |
|
| Types of Bonds | 69 | ALO 12.2.2-1: Recall the following types of Bond: i. Stretcher Bond ii. Header Bond iii. English Bond iv. Flemish Bond v. Raking Bond vi. Zig-Zag Bond vii. Garden Wall Bond |
| 16 | ALO 12.2.2-2: Differentiate between Stone Masonry and Brick Masonry | |
| Composite Masonry | 19 | ALO 12.2.3-1: Recall the following Composite Masonry: i. Brick Stone Composite Masonry ii. Concrete Masonry iii. Reinforced Brick Masonry |
| Building Material and Construction – Session 8 | |
| Session Topics : 16 Active Learning Outcomes : 21 |
Summary Quiz : 16 Video Play Time : ~5 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction of Doors | 5 | ALO 13.1.1-1: Define the term Door |
| 5 | ALO 13.1.1-2: Explain the Locations of Door | |
| 13 | ALO 13.1.1-3: Describe the Size of Door | |
| Door Frames | 10 | ALO 13.1.2-1: Define key terms related to Doors such as Frame, Shutter, Horn etc. |
| 6 | ALO 13.1.2-2: List and recall types of Door Frames | |
| Classification of Doors | 30 | ALO 13.1.3-1: Classify the Doors on the basis of following parameters such as Arrangement of Components, Method/manner of construction, Working Operations etc. |
| Introduction of Windows | 6 | ALO 13.2.1-1: Define the term Window ALO 13.2.1-2: Describe the Locations of a Window |
| Types of Windows | 14 | ALO 13.2.2-1: List and recall types of Windows such as Casement window, Sliding window, Louvered window, Corner window |
| Basics of Arches | 6 | ALO 14.1.1-1: Define the term Arch |
| 9 | ALO 14.1.1-2: Recall the following terms related to Arch: i. Intrados ii. Extrados iii. Skewback iv. Springer |
|
| Classification of Arch-I | 15 | ALO 14.1.2-1: Recall the classification of Arch according to the Shape: i. Flat arch ii. Segmental arch iii. Semi-circular arch iv. Semi-elliptical arch v. Inverted arch |
| Classification of Arch-II | 11 | ALO 14.1.3-1: Recall the classification of Arch according to the number of centers: i. One-centred arch ii. Two-centred arch iii. Three-centred arch iv. Four-centred arch v. Five-centred arch |
| Classification of Arch-III | 16 | ALO 14.2.1-1: Recall the classification of Arch according to materials of construction: i. Stone arch ii .Brick arch iii. Concrete arch |
| Stability of an Arch | 19 | ALO 14.2.2-1: Recall the Stability of an arch: i. Crushing of the masonry ii. Sliding of voussoir iii. Uneven settlement of abutment or pier |
| Lintel and its types | 24 | ALO 14.2.3-1: Define the term Lintel ALO 14.2.3-2: Recall the following types of Lintel: i. Wood lintels ii. Stone lintels iii. Brick lintels iv. RCC lintels |
| Basics of Floor | 6 | ALO 15.1.1-1: Recall the purpose of Floor |
| 24 | ALO 15.1.1-2: Recall the Component of Floor | |
| Selection of Flooring materials | 14 | ALO 15.1.2-1: Recall the major considerations for the selection of flooring material such as initial cost, sound insulation, smoothness, etc |
| Materials for Flooring | 35 | ALO 15.2.1-1: Recall the materials that are required for Flooring such as mud flooring, brick flooring, and timber flooring, etc |
| Types of Upper Floor | 16 | ALO 15.2.2-1: Classify Upper floors such as Timber and Composite Floor |
| Composite Floor | 19 | ALO 15.2.3-1: Recall the composite floors such as jack arch floor, R.C.C floor, and filler joists floor, etc |
| Building Material and Construction – Session 9 | |
| Session Topics : 17 Active Learning Outcomes : 25 |
Summary Quiz : 17 Video Play Time : ~6 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Roof | 11 | ALO 16.1.1-1: Define the term Roof |
| 21 | ALO 16.1.1-2: Recall the requirements of Roof | |
| Classification of Roof | 11 | ALO 16.1.2-1: Classify Roof such as Pitched roof, Flat roof, and curved roof etc |
| 21 | ALO 16.1.2-2: Recall the basic elements of Pitched Roof | |
| Types of Pitched Roofs | 38 | ALO 16.2.1-1: Recall the types of Pitched roofs such as Single, Double, and Trussed roof |
| Roof covering for Pitched Roof | 27 | ALO 16.2.2-1: Recall the Roof covering for Pitched roof such as thatch covering and tiles etc |
| Types of Flat Roofing | 24 | ALO 16.2.3-1: Recall the types of Flat roofing such as Mud-terrace roofing, Lime concrete terracing, etc |
| Basics of Stairs | 25 | ALO 17.1.1-1: Explain the following technical terms related to Stairs: i. Baluster ii. Going iii. Riser iv. Step v. Tread vi. Pitch |
| Types of Stairs | 21 | ALO 17.1.2-1: Recall the following Stairs: i. Straight stairs ii. Turning stairs iii. Circular stairs iv. Geometrical stairs |
| Escalators | 5 | ALO 17.1.3-1: Define the term Escalator |
| 4 | ALO 17.1.3-2: Recall the essential parts of Escalator ALO 17.1.3-3: Define the terms Speed and Slope for Escalator | |
| 2 | ALO 17.1.3-4: List various advantages of Escalator | |
| Stairs of different material | 29 | ALO 17.2.1-1: Recall the Stairs of different material: i. Stone stairs ii. Wooden stairs iii. Brick stairs iv. Metal stairs v. RCC stairs |
| Ramp | 8 | ALO 17.2.2-1: Recall the important features of the Ramp |
| Design of Stairs | 13 | ALO 17.2.3-1: Recall the following requirements of a good stair: i. Design layout ii. Width iii. Head room iv. Flight |
| Plastering | 5 | ALO 18.1.1-1: Define the term Plastering |
| 4 | ALO 18.1.1-2: List and recall the Objects of Plastering | |
| 3 | ALO 18.1.1-3: Recall the requirements of good Plaster | |
| Method of Plastering | 25 | ALO 18.1.2-1: Recall the methods of Plastering such as Lime plaster and Cement plaster |
| Defects in Plastering | 8 | ALO 18.1.3-1: Explain various Defect in Plastering such as Blistering, Cracking, Crazing, and Flaking etc |
| Introduction to Pointing | 5 | ALO 18.1.4-1: Define the term Pointing |
| 7 | ALO 18.1.4-2: Recall the method of Pointing | |
| Introduction to Partition Wall | 3 | ALO 18.2.1-1: Define the term Partition Wall |
| 3 | ALO 18.2.1-2: Recall therequirements for Partition Wall | |
| Classification of Partition Wall | 11 | ALO 18.2.2-1: Recall different Partition Wall such as Brick partition, Concrete partition, and Timber partition |
| RCC – Session 1 | |
| Session Topics : 6 Active Learning Outcomes : 14 |
Summary Quiz : 6 Video Play Time : ~3 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Strength of Concrete | 18 | ALO 1.1.1-1: Define the term RCC. |
| 16 | ALO 1.1.1-2: Recall the following tests to determine the compressive strength: i. Cube Test ii. Cylinder Test |
|
| 11 | ALO 1.1.1-3: Describe the Characteristics strength of Concrete along with its acceptance criteria. | |
| 13 | ALO 1.1.1-4: Recall the Tensile strength of Concrete. | |
| Concrete mix Design | 27 | ALO 1.1.2-1: Describe design procedure for Concrete mix design as per IS:10262 Standard. |
| Stress-Strain curve for Concrete | 7 | ALO 1.1.3-1: Recall the Stress-Strain curve for concrete. |
| 8 | ALO 1.1.3-2: Recall different Modulus of elasticities of concrete. | |
| 13 | ALO 1.1.3-3: Store the significance of Creep in Concrete. | |
| Types of Reinforcement | 19 | ALO 1.2.1-1: Recall different grades of steel used in RCC. |
| 5 | ALO 1.2.1-2: List basic properties of Steel. | |
| Types of Design Method | 18 | ALO 1.2.2-1: Describe the following methods of RCC members: i. Working Stress method ii. Ultimate Load method iii. Limit State method |
| 5 | ALO 1.2.2-2: List the relevant IS codes used for design and analysis of RCC. | |
| IS:456-2000 Recommendations | 8 | ALO 1.2.3-1: Describe the IS Guidelines for the following: i. Size of Aggregates ii. Use of water iii. Concrete on Seawater |
| 12 | ALO 1.2.3-2: State the Stripping time for various types of formwork. |
| RCC – Session 2 | |
| Session Topics : 10 Active Learning Outcomes : 28 |
Summary Quiz : 10 Video Play Time : ~8 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Limit State and its Types | 17 | ALO 2.1.1-1: Define the following terms: i. Limit State ii. Limit Load iii. Limit Analysis |
| 8 | ALO 2.1.1-2: List various types of Limit State used in Limit State Design. | |
| 19 | ALO 2.1.1-3: Recall the basic assumptions of Limit State Design. | |
| Limit State Characteristics Strength and Types of Failure | 13 | ALO 2.1.2-1: Recall the Characteristics Strength for the Limit State Design. |
| 22 | ALO 2.1.2-2: Describe the Partial Safety Factors for Load and Material. | |
| 7 | ALO 2.1.2-3: Recall the types of Failure in Structure Design. | |
| Analysis of Singly Reinforced Beam Section | 34 | ALO 2.2.1-1: Recall the following Analysis of Singly Reinforced Beam Section: i. Strain analysis of Singly Reinforced Beam Section ii. Stress analysis types of Sections |
| 35 | ALO 2.2.1-2: Recall the different types of Sections. | |
| Analysis of Doubly Reinforced Beam Section | 7 | ALO 2.2.2-1: State the conditions in which Doubly Reinforced Beam is provided. |
| 37 | ALO 2.2.2-2: Describe the analysis of Doubly Reinforced Beam. | |
| Analysis of Flanged Beam Section | 10 | ALO 2.2.3-1: Define the term Flanged Beam. |
| 9 | ALO 2.2.3-2: Classify the Flanged Beam. | |
| 6 | ALO 2.2.3-3: Recall the effective Width of the Beam. | |
| 47 | ALO 2.2.3-4: Describe the Analysis of Flanged Beam. | |
| Design for Shear Part-I | 19 | ALO 2.3.1-1: Recall the concept of Formation of Shear Cracks in Beam. |
| 6 | ALO 2.3.1-2: Recall the assumptions for the design of Shear Reinforcement. | |
| 17 | ALO 2.3.1-3: List various types of Shear Reinforcement. | |
| Design for Shear Part-II | 6 | ALO 2.3.2-1: Recall the concept of minimum Reinforcement in Shear. |
| 29 | ALO 2.3.2-2: Describe the design of Beam for Shear Reinforcement. | |
| Concept of Bond and Anchorage | 27 | ALO 2.3.3-1: Recall different types of Bonds in RCC. ALO 2.3.3-2: Describe the concept of development of Length |
| 13 | ALO 2.3.3-3: Recall the Mechanism of Bond Failure. | |
| 13 | ALO 2.3.3-4: Recall the curtailment of Flexural Reinforcement. | |
| 10 | ALO 2.3.3-5: Recall the Splicing of Reinforcement. | |
| Concept of Torsion | 6 | ALO 2.3.4-1: Describe the concept of Torsion in the member made up of linearly elastic Homogeneous Material. |
| 6 | ALO 2.3.4-2: Recall the use of Torsion in RCC members in terms of Shear and Moment. | |
| Limit States of Serviceability Conditions | 15 | ALO 2.4.1-1: Recall Deflection Control in the design of RCC members. |
| 30 | ALO 2.4.1-2: Describe the following types of deflection: i. Short term deflection ii. Long term deflection | |
| 5 | ALO 2.4.1-3: Define Cracking and its control. |
| RCC – Session 3 | |
| Session Topics : 3 Active Learning Outcomes : 10 |
Summary Quiz : 3 Video Play Time : ~3 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Analysis of Singly Reinforced Beam Section | 5 | ALO 3.1.1-1: Describe the Working stress method to design RCC members. |
| 13 | ALO 3.1.1-2: Recall the Permissible stresses in concrete and steel-reinforcement. | |
| 21 | ALO 3.1.1-3: Describe the assumptions of the working stress method. | |
| 35 | ALO 3.1.1-4: Recall the different types of section in RCC members. | |
| Analysis of Doubly Reinforced Beam Section | 7 | ALO 3.1.2-1: State the conditions in which Doubly Reinforced Beam is provided. |
| 33 | ALO 3.1.2-2: Describe the analysis of Doubly Reinforced Beam by using Working Stress Design Method. | |
| Analysis of Flanged Beam Section | 3 | ALO 3.1.3-1: Define the term Flanged Beam. |
| 9 | ALO 3.1.3-2: Classify the Flamed Beam. | |
| 11 | ALO 3.1.3-3: Recall the effective Width of the Beam. | |
| 16 | ALO 3.1.3-4: Describe the Analysis of Flanged Beam by using Working Stress Design Method. |
| RCC – Session 4 | |
| Session Topics : 11 Active Learning Outcomes : 22 |
Summary Quiz : 11 Video Play Time : ~7 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Types of RCC Columns | 13 | ALO 4.1.1-1: Classify Columns on the basis of the following: i. Slenderness Ratio ii. Eccentricity |
| 4 | ALO 4.1.1-2: Describe the concept of Eccentricity in the Columns. | |
| 10 | ALO 4.1.1-3: List various conditions of the effective span of the Column. | |
| IS Codal provision for Columns | 17 | ALO 4.1.2-1: Recall IS Codal Provision for the following: i. Minimum Reinforcement ii. Maximum Reinforcement iii. Minimum number of Bars iv. Minimum Clear Cover |
| 9 | ALO 4.1.2-2: Describe IS guidelines for Lateral Reinforcement: | |
| Design of Axially Loaded Short Columns | 10 | ALO 4.1.3-1: Recall assumptions for the design of axially loaded short columns. |
| 12 | ALO 4.1.3-2: Describe the Load carrying capacity of the Short Columns. | |
| 31 | ALO 4.1.3-3: Recall the steps to design axially loaded short columns. | |
| Design of Helically Reinforced Columns | 15 | ALO 4.1.4-1: Describe Helical Reinforcement in the Columns. |
| 25 | ALO 4.1.4-2: Recall steps to design Helically Reinforced Columns. | |
| Types of Foundations | 6 | ALO 4.2.1-1: Define the following terms: i. Footings ii. Foundations iii. Allowable Bearing Capacity iv. Safe Bearing Capacity |
| 4 | ALO 4.2.1-2: Recall the minimum depth criteria of the Foundation. | |
| 21 | ALO 4.2.1-3: Describe the types of Foundations. | |
| General Design requirements | 30 | ALO 4.2.2-1: Describe general design requirements as per IS:456-2000 for the design of a Footing. |
| Design of Isolated Footing | 30 | ALO 4.2.3-1: Describe design procedure for Isolated Footing. |
| Design of Combined Footing | 85 | ALO 4.2.4-1: Describe the Design procedure for the following: i. Rectangular Combined Footing ii. Trapezoidal Combined Footing |
| Design of masnory wall fooing | 20 | ALO 4.2.5-1: Explain the design steps for Masonry Wall Footing. |
| Design of long column | 9 | ALO 4.3.1-1: Describe Load carrying capacity of the Long Columns. |
| 10 | ALO 4.3.1-2: Recall the steps to design Long Columns. | |
| Desigm of eccentrically loaded colunm | 14 | ALO 4.3.2-1: Recall the modes of failure in Eccentric compression. |
| 12 | ALO 4.3.2-2: Describe the silent features of PM Interaction Curve. | |
| 6 | ALO 4.3.2-3: Recall the steps to design Eccentrically Loaded Columns. |
| RCC – Session 5 | |
| Session Topics : 9 Active Learning Outcomes : 22 |
Summary Quiz : 9 Video Play Time : ~6 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of a Staircase | 26 | ALO 5.1.1-1: Recall various components of a Staircase. |
| 26 | ALO 5.1.1-2: Classify Staircase. | |
| IS Codal provision for a Staircase | 10 | ALO 5.1.2-1: Describe guidelines for the provision of components of a Staircase as per IS: 456-2000 |
| 4 | ALO 5.1.2-2: Recall the conditions for an effective span of a Staircase. | |
| 14 | ALO 5.1.2-3: Describe the different loads on a Staircase. | |
| Design of a Staircase | 25 | ALO 5.1.3-1: Recall the steps to design a Staircase. |
| Components of Flat Slabs | 22 | ALO 5.2.1-1: Describe different Components of Flat Slab along with their Function. |
| 12 | ALO 5.2.1-2: Describe the Moment calculation along with the Column strip and Middle strip in the following Panels: i. Interior Panel ii. Exterior Panel |
|
| Design of Flat Slabs | 13 | ALO 5.2.2-1: Recall IS Guidelines for Flat Slab Reinforcement. |
| 8 | ALO 5.2.2-2: Recall the concept of Shear in Flat Slab. | |
| 5 | ALO 5.2.2-3: Describe the Openings in Flat Slab. | |
| 38 | ALO 5.2.2-4: Describe the steps to design the Flat Slab. | |
| Features of Yield Line | 5 | ALO 6.1.1-1: Define the term Yield Line. |
| 4 | ALO 6.1.1-2: Recall the assumptions for Yield Line Theory. | |
| 8 | ALO 6.1.1-3: Recall the development of Yield Line in Slabs. | |
| 2 | ALO 6.1.1-4: Describe the Characteristics of Yield Lines. | |
| Analysis of Yield Line in One-way Slab | 8 | ALO 6.1.2-1: Describe the Analysis methods of Yield Line. |
| 28 | ALO 6.1.2-2: Derive an expression for collapse load in a One -way slab. | |
| Analysis of Yield Line in Two-way Slab | 30 | ALO 6.1.3-1: Derive an expression for Collapse load continuous on all sides in a Rectangular Two-way slab. |
| 15 | ALO 6.1.3-2: Derive an expression for Collapse load in Simply supported at 3 edges and free at 4 edge in a Rectangular Two-way Slab. | |
| Analysis of Non-Rectangular Slabs | 13 | ALO 6.1.4-1: Derive an expression for Collapse load in Circular slab. |
| 15 | ALO 6.1.4-2: Derive an expression for Collapse load in Triangular slab. |
| RCC – Session 6 | |
| Session Topics : 8 Active Learning Outcomes : 20 |
Summary Quiz : 8 Video Play Time : ~5 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Prestressed Concrete | 4 | ALO 7.1.1-1: Describe the term Prestressed Concrete. |
| 6 | ALO 7.1.1-2: State advantage and limitations of Prestressed Concrete. | |
| 16 | ALO 7.1.1-3: Describe different Prestressing systems. | |
| 17 | ALO 7.1.1-4: Recall the following terms with their merits and demerits: i. Pre-Tensioned concrete ii. Post-Tensioned concrete |
|
| Stress concept approach for analysis | 36 | ALO 7.1.2-1: Recall the analysis of Prestressed concrete member for the following: i. Concentric Tendons ii. Eccentric Tendons |
| 3 | ALO 7.1.2-2: Describe Cracking moment and Load factor against cracking. | |
| 3 | ALO 7.1.2-3: Describe Stress analysis of members in various stages of Pre-stressing. | |
| Load balancing concept approach for analysis | 24 | ALO 7.1.3-1: Describe the concept of Load balancing analysis of Prestressed concrete members. |
| C-line/P-line approach for analysis | 4 | ALO 7.1.4-1: Define the term Pressure Line. |
| 16 | ALO 7.1.4-2: Recall the analysis of members using the P-line/C-line approach. | |
| Losses of Prestressed | 75 | ALO 7.2.1-1: Describe the following Losses of Prestressed concrete members: i. Short term Losses ii. Long term Losses |
| Design of Members | 8 | ALO 7.2.2-1: Define the term Kern Point. |
| 5 | ALO 7.2.2-2: Derive the expression for Cracking moment using Kern point. | |
| 18 | ALO 7.2.2-3: Describe the design procedure for Prestressed concrete members. | |
| Deflection of the Prestressed members | 15 | ALO 7.2.3-1: State the effect of Tendon profile on Deflection. |
| 11 | ALO 7.2.3-2: Describe the Deflection of members due to their Self-weight. | |
| 4 | ALO 7.2.3-3: Recall the effect of shear in the Prestressed members. | |
| End Blocks | 7 | ALO 7.2.4-1: Describe Stress distribution in the End Blocks. |
| 8 | ALO 7.2.4-2: Describe the following methods in detail: i. Magnel method ii. Guyon method | |
| 5 | ALO 7.2.4-3: Recall the End zone Reinforcement. |
| RCC – Session 7 | |
| Session Topics : 10 Active Learning Outcomes : 18 |
Summary Quiz : 10 Video Play Time : ~7 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Design parameters of Beams | 19 | ALO 8.1.1-1: Recall the Effective Span of Beam. |
| 5 | ALO 8.1.1-2: Describe Permissible limit of Deflection for Beams as per IS : 456-2000 | |
| 9 | ALO 8.1.1-3: Recall the Criteria for Control of Deflection. | |
| IS Codal provision for Beams | 19 | ALO 8.1.2-1: Recall the Codal provision for the following Beam Parameters: i. Minimum Clear Cover ii. Minimum Reinforcement iii. Maximum Reinforcement iv. Side face Reinforcement |
| 3 | ALO 8.1.2-2: Describe the concept of Lateral Stability of a Beam. | |
| Design of Singly Reinforced Beam | 63 | ALO 8.1.3-1: Recall the design procedure for Singly Reinforced Beam. |
| Design of Doubly Reinforced Beam | 48 | ALO 8.1.4-1: Recall the design procedure for Doubly Reinforced Beam. |
| Design of Flanged Beam | 32 | ALO 8.1.5-1: Recall the design procedure for Flanged Beam. |
| IS Codal provisions | 17 | ALO 8.2.1-1: Recall the effective span of the slab. |
| 18 | ALO 8.2.1-2: Describe the IS Codal provision for the following: i. Minimum Reinforcement ii. Maximum Reinforcement iii. Maximum Spacing iv. Maximum Diameter of Reinforcement v. Minimum Clear Cover |
|
| Design of One-way Slab | 45 | ALO 8.2.2-1: Recall the design procedure for One-way Slab. |
| Design of Two-way Slab | 14 | ALO 8.2.3-1: Describe Rankine’s Grashoff Theory. |
| 21 | ALO 8.2.3-2: Describe IS Codal method to design Two-way Slab. | |
| 60 | ALO 8.2.3-3: Recall the design procedure for Two-way Slab. | |
| Curved Beam in plan | 26 | ALO 8.3.1-1: Derive an expression for Circular beam loaded uniformly and supported on Symmetrically placed Columns. |
| 12 | ALO 8.3.1-2: Derive an expression for Semi-circular beam simply supported on three equally spaced supports. | |
| Continuous Beam | 6 | ALO 8.3.2-1: Describe the Live arrangement in Continuous Beam. |
| 6 | ALO 8.3.2-2: Describe the Coefficient of Moments and Shear in Continuous Beam. |
| RCC – Session 8 | |
| Session Topics : 6 Active Learning Outcomes : 18 |
Summary Quiz : 6 Video Play Time : ~4 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Stability analysis of Retaining wall | 4 | ALO 9.1.1-1: Define the term Retaining wall. |
| 13 | ALO 9.1.1-2: Classify Retaining wall. | |
| 32 | ALO 9.1.1-3: Recall the stability of the Retaining wall. | |
| Design of Retaining wall | 7 | ALO 9.1.2-1: Recall the general design requirements. |
| 41 | ALO 9.1.2-2: Describe the design procedure of Retaining wall. | |
| Design requirements of Materials | 10 | ALO 9.2.1-1: Classify Water Tank |
| 9 | ALO 9.2.1-2: Recall the Permissible Stresses in Concrete: i. For resistance to cracking ii. For strength calculations |
|
| 1 | ALO 9.2.1-3: Recall the Permissible Stress in Steel. | |
| 4 | ALO 9.2.1-4: Recall Stresses during Temperature change. | |
| Components of a Water Tank | 18 | ALO 9.2.2-1: Classify Joints. |
| 3 | ALO 9.2.2-2: Describe Spacing of Joints. | |
| 19 | ALO 9.2.2-3: Describe the following components of a Water Tank: i. Floors ii. Roofs iii. Walls |
|
| 5 | ALO 9.2.2-4: Recall the Minimum Reinforcement in the Water Tank. | |
| Analysis of members of Water Tank | 9 | ALO 9.2.3-1: Describe the analysis of members subjected to Axial tension only. |
| 15 | ALO 9.2.3-2: Describe the analysis of members subjected to Bending moment only. | |
| 15 | ALO 9.2.3-3: Describe the analysis of members subjected to combined Axial, Tension, and Bending moment. | |
| Design of Water Tanks | 27 | ALO 9.2.4-1: Describe the design procedure for Circular water tanks. |
| 12 | ALO 9.2.4-2: Describe the design procedure for Rectangular water tanks. |
| Soil Mechanics – Session 1 | |
| Session Topics : 7 Active Learning Outcomes : 12 |
Summary Quiz : 7 Video Play Time : ~3 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Soil Mechanics and Formation of Soil | 10 | ALO 1.1.1-1: Define the following terms: i. Soil Mechanics ii. Soil Engineering iii. Geotechnical Engineering |
| 11 | ALO 1.1.1-2: Describe the Origin of Soil and its Formation | |
| 17 | ALO 1.1.1-3: Recall Scope & Limitation of Soil Engineering | |
| 9 | ALO 1.1.1-4: Recall different types of Soil Deposits | |
| Basic properties of soil | 28 | ALO 1.1.2-1: Recall the following Basic Properties of Soil: i. Mass Density of Soil ii. Weight Density of Soil iii. Specific Gravity of Soil |
| 2 | ALO 1.1.2-2: Differentiate between the Mass Density and Weight Density of Soil | |
| Phase Properties of Soil (Part-I) | 27 | ALO 1.2.1-1: Recall the Phase Properties of Soil: i. Water Content of Soil ii. Void Ratio of the Soil iii. Porosity of the Soil |
| Phase Properties of Soil (Part-II) | 14 | ALO 1.2.2-1: Define the following Properties of Soil: i. Degree of Saturation ii. Air Content of Soil iii. Percentage Air Void |
| Relation between Basic and Phase Properties of Soil | 12 | ALO 1.2.3-1: Describe the relationships between among of the following: i. Degree of Saturation, Void Ratio, Water Content, and Specific Gravity ii. Bulk Density, Void Ratio, and Specific Gravity iii. Bulk Density, Dry Density, and Water Content |
| Determination of Specific Gravity and Water Content of Soil | 13 | ALO 1.3.1-1: Recall the Determination of Specific Gravity of Soil |
| 30 | ALO 1.3.1-2: Recall different Methods for Determination of Water Content of Soil | |
| Determination of Density of Soil | 27 | ALO 1.3.2-1: Recall the determination of Density of Soil |
| Soil Mechanics – Session 2 | |
| Session Topics : 10 Active Learning Outcomes : 25 |
Summary Quiz : 10 Video Play Time : ~6 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Sieve Analysis | 10 | ALO 2.1.1-1: Explain the Sieve method of Analysis |
| 19 | ALO 2.1.1-2: Differentiate between the Dry Sieve Analysis and Wet Sieve Analysis | |
| Sedimentation analysis | 17 | ALO 2.1.2-1: Explain the concept of Sedimentation Analysis |
| 5 | ALO 2.1.2-2: State Stoke’s Law and explain its Limitation | |
| 12 | ALO 2.1.2-3: Explain the Pipette method of Analysis | |
| 16 | ALO 2.1.2-4: Explain the Hydrometer method of Analysis | |
| Distribution curve | 6 | ALO 2.1.3-1: Explain the Particle Size Distribution Curve: ALO 2.1.3-2: Define D10, D30, and D60 |
| 5 | ALO 2.1.3-3: Define Well Graded, Poorly Graded, Uniformly Graded, and Gap Graded Soil | |
| 8 | ALO 2.1.3-4: Explain Uniformity co-efficient and Co-efficient of Curvature | |
| Consistency/Atterberg’s limits | 25 | ALO 2.2.1-1: Explain the Importance of Consistency/Atterberg’s Limits in Soil Engineering ALO 2.2.1-2: Explain the Liquid, Plastic and Shrinkage Limits of Soil |
| 33 | ALO 2.2.1-3: Explain and differentiate the Plasticity, Consistency, and Liquidity Index of the Soil ALO 2.2.1-4: Explain the Shrinkage Index of Soil | |
| Methods for the Determination of Consistency Limits | 27 | ALO 2.2.2-1: Describe the different methods for determination of Liquid Limits of Soil |
| 5 | ALO 2.2.2-2: Describe the method for determination of Plastic limits of soil | |
| 29 | ALO 2.2.2-3: Describe the method for determination of Shrinkage Limits of Soil | |
| Soil Structure | 11 | ALO 2.3.1-1: Explain Different types of Soil Structure ALO 2.3.1-2: Explain the Properties of Soil Structures |
| 16 | ALO 2.3.1-3: Describe the types of Soil in which these Structures are existed | |
| Clay Minerals | 8 | ALO 2.3.2-1: Explain the Basic Structure and Minerals Unit |
| 17 | ALO 2.3.2-2: List various types of Clay Minerals and explain each of them ALO 2.3.2-3: Explain the Characteristics of Clay Minerals | |
| Soil Classification on the basis of Plasticity chart | 8 | ALO 2.4.1-1: Explain the Particle Size classification |
| 6 | ALO 2.4.1-2: Explain the Unified Soil classification system (On the basis of Plasticity Chart) | |
| 15 | ALO 2.4.1-3: Define Coarse-Grained Soils and Fine-Grained Soils | |
| Indian standard classification | 16 | ALO 2.4.2-1: Explain the Indian Standard classification system of Soil |
| 35 | ALO 2.4.2-2: Explain the Total number of Groups Formation in this System | |
| H.R.B and Textural classification | 11 | ALO 2.4.3-1: Explain the Highway Research Board (H.R.B) classification of Soil |
| 8 | ALO 2.4.3-2: Explain the Textural classification of Soil |
| Soil Mechanics – Session 3 | |
| Session Topics : 7 Active Learning Outcomes : 22 |
Summary Quiz : 7 Video Play Time : ~4 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Permeability and Darcy’s Law of Permeability | 7 | ALO 3.1.1-1: Define Permeability of Soil |
| 4 | ALO 3.1.1-2: Recall the Significance of Permeability | |
| 18 | ALO 3.1.1-3: Describe the Darcy’s Law of Permeability | |
| 6 | ALO 3.1.1-4: Recall the Validity of Darcy’s Law | |
| 31 | ALO 3.1.1-5: Describe Factors affecting the Permeability of Soil | |
| Determination of Permeability | 9 | ALO 3.1.2-1: Describe Methods of Determination of the Coefficient of Permeability ALO 3.1.2-2: Recall the Constant Head Permeability Test |
| 7 | ALO 3.1.2-3: Recall the Variable Head Permeability Test | |
| 36 | ALO 3.1.2-4: Recall the Field Determination of Permeability | |
| Average Permeability of Stratified soil deposite | 7 | ALO 3.2.1-1: Recall the Average Permeability when Flow is Parallel to the bedding plane |
| 9 | ALO 3.2.1-2: Recall the Average Permeability when Flow is Normal to the bedding plane | |
| Types of Soil Moisture | 14 | ALO 3.2.2-1: Recall the Soil Moisture ALO 3.2.2-2: List various types of Soil Moisture |
| Principle of Effective stress | 8 | ALO 3.2.3-1: Recall the Principle of Effective Stress |
| 3 | ALO 3.2.3-2: Recall the Physical Significance of Effective Stress | |
| 28 | ALO 3.2.3-3: Describe the Effective Stress under Ordinary Condition | |
| 14 | ALO 3.2.3-4: Describe Effective stress under Capillary Action | |
| Seepage Pressure and its Significance | 6 | ALO 3.3.1-1: Define the term: i. Seepage Pressure ii. Seepage Force |
| 3 | ALO 3.3.1-2: Recall the Effect of Seepage Pressure on Effective Stress of Soil | |
| 11 | ALO 3.3.1-3: Recall the concept of the following: i. Quick Sand ii. Critical Hydraulic Gradient |
|
| Hydro Piping Failure and formation of flow net | 7 | ALO 3.3.2-1: Recall the Piping Failure in Hydraulic Structure |
| 5 | ALO 3.3.2-2: Recall the concept of Flow Net Formation | |
| 13 | ALO 3.3.2-3: Describe different Characteristics of Flow Net | |
| 4 | ALO 3.3.2-4: List various applications of the Flow Net |
| Soil Mechanics – Session 4 | |
| Session Topics : 9 Active Learning Outcomes : 34 |
Summary Quiz : 9 Video Play Time : ~6 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Soil Compaction and Compaction Test (Part-I) | 7 | ALO 4.1.1-1: Define Soil Compaction |
| 9 | ALO 4.1.1-2: Describe the Proctor’s Test of Soil Compaction | |
| 9 | ALO 4.1.1-3: Recall the concept of O.M.C. and Zero Air Void Line | |
| 3 | ALO 4.1.1-4: Describe the Modified Proctor’s Test of the Soil Compaction | |
| Basics of Soil Compaction and Compaction Test (Part-II) | 8 | ALO 4.1.2-1: Recall the Indian Standard Recommendation of Compaction |
| 9 | ALO 4.1.2-2: Describe the types of IS Compaction Tests | |
| Factors affecting Compaction and Field Control of Compaction | 33 | ALO 4.1.3-1: Recall the Factors affecting the Soil Compaction |
| 17 | ALO 4.1.3-2: Recall the Effect of Compaction on the Soil Properties | |
| 15 | ALO 4.1.3-3: Describe the Field Control of the Compaction | |
| Basics of Soil Consolidation and Stages of Consolidation (Part-I) | 10 | ALO 4.2.1-1: Define the term Soil Consolidation |
| 3 | ALO 4.2.1-2: Differentiate between Compaction and Consolidation | |
| 18 | ALO 4.2.1-2: Describe the Stages of Consolidation | |
| 10 | ALO 4.2.1-4: Recall: i. Normally Consolidated Clay (NCC) ii. Over Consolidated Clay (OCC) iii. Over Consolidation Ratio (OCR) |
|
| Basics of Soil Consolidation and Stages of Consolidation (Part-II) | 10 | ALO 4.2.2-1: Describe the e-log p Curve of Consolidation |
| 21 | ALO 4.2.2-2: Recall various Consolidation Characteristics | |
| 15 | ALO 4.2.2-3: Recall the concept of Settlement in the Soil | |
| Terzaghi’s Theory and Consolidation Test | 33 | ALO 4.2.3-1: Recall Terzaghi’s Theory of Consolidation |
| 6 | ALO 4.2.3-2: Describe various Consolidation Test | |
| 12 | ALO 4.2.3-3: Describe the Determination of the Coefficient of Consolidation | |
| Methods of Soil Stabilisation (Part-I) | 6 | ALO 4.3.1-1: Define Soil Stabilisation and its Properties |
| 7 | ALO 4.3.1-2: Recall the Mechanical Stabilisation of Soil | |
| 10 | ALO 4.3.1-3: Recall the Factors that affect the Mechanical Stabilisation | |
| 2 | ALO 4.3.1-4: Recall the Cement Stabilisation of Soil | |
| 7 | ALO 4.3.1-5: Classify the Cement Stabilisation of Soil | |
| 5 | ALO 4.3.1-6: Recall the Factors affecting the Cement Stabilisation | |
| Methods of Soil Stabilisation (Part-II) | 5 | ALO 4.3.2-1: Recall the Lime Stabilisation of Soil |
| 4 | ALO 4.3.2-2: List various types of Lime Stabilisation | |
| 6 | ALO 4.3.2-3: Recall the Bituminous Stabilisation of Soil ALO 4.3.2-4: Classify the Bituminous Stabilisation | |
| 4 | ALO 4.3.2-5: Recall Factors that affect the Bituminous Stabilisation | |
| 8 | ALO 4.3.2-6: Recall the Chemical Stabilisation of Soil ALO 4.3.2-7: List various types of Chemical Stabilisation | |
| Methods of Soil Stabilisation (Part-III) | 8 | ALO 4.3.3-1: Recall: i. Thermal Stabilisation of Soil ii. Stabilisation by Grouting |
| 5 | ALO 4.3.3-2: List various types of Grouting | |
| 3 | ALO 4.3.3-3: Recall the Stabilisation by Geotextile | |
| 8 | ALO 4.3.3-4: Classify the Geotextile |
| Soil Mechanics – Session 5 | |
| Session Topics : 12 Active Learning Outcomes : 35 |
Summary Quiz : 12 Video Play Time : ~6 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Shear Strength and concept of Mohr’s Circle | 5 | ALO 5.1.1-1: Define Shear Strength of Soil |
| 7 | ALO 5.1.1-2: Recall the Parameters of the Shear Strength | |
| 16 | ALO 5.1.1-3: Describe the concept of Mohr’s Stress Circle | |
| 17 | ALO 5.1.1-4: Recall the Mohr-Coulomb Theory | |
| Shear Test-(Part-I) | 7 | ALO 5.1.2-1: Describe the Direct Shear Test and its Limitations |
| 7 | ALO 5.1.2-2: Recall the Mohr’s Circle for Direct Shear Test | |
| 7 | ALO 5.1.2-3: Describe the Tri-axial Compression Test | |
| 6 | ALO 5.1.2-4: Recall the advantages and limitations of Tri-axial Compression Test | |
| 10 | ALO 5.1.2-5: Recall the Relation between Principal Stresses at Failure | |
| Shear Test-(Part-II) | 13 | ALO 5.1.3-1: Describe the Unconfined Compression Test |
| 11 | ALO 5.1.3-2: Describe the Vane Shear Test | |
| Different Results for Shear Tests | 7 | ALO 5.2.1-1: Recall the Typical Stress-Strain Curves for different Soils |
| 7 | ALO 5.2.1-2: Describe the Consolidated Undrained and the Consolidated Drained Tests | |
| 7 | ALO 5.2.1-3: Recall the terms Critical Void Ratio and Stress Path | |
| 6 | ALO 5.2.1-4: Describe the Skempton’ s Pore Pressure Coefficients | |
| 11 | ALO 5.2.1-5: Recall the Sensitivity and the Thixotropy | |
| Vertical Stresses under various Loading Conditions | 39 | ALO 6.1.1-1: Recall the Vertical Stresses under various types of Load such as: i. Point Load ii. Line Load iii. Uniformly Loaded Circular Area iv. Uniformly Loaded Rectangular Area |
| 7 | ALO 6.1.1-2: Recall Isobar Diagram and the Influence Diagram | |
| Newmark’s Influence Chart | 12 | ALO 6.1.2-1: Recall the Newmark’s Influence Chart |
| 3 | ALO 6.1.2-2: Describe the Westergaard’s Equation | |
| 5 | ALO 6.1.2-3: Recall the Contact Pressure Distribution | |
| Introduction to Stability of Slopes | 10 | ALO 7.1.1-1: Recall Failure of the Slope |
| 3 | ALO 7.1.1-2: Recall assumptions of the Slope Analysis | |
| 6 | ALO 7.1.1-3: List various types of Factor of Safety | |
| 7 | ALO 7.1.1-4: Classify the Slope Failure | |
| Stability Analysis of Infinite Slopes (Part-I) | 22 | ALO 7.1.2-1: Recall Stability Analysis of Infinite Slope for Cohesionless Soil: i. In Dry Soil Conditions ii. In Submerged Slope iii. In Steady Seepage along the Slop |
| Stability Analysis of Infinite Slopes (Part-II) | 16 | ALO 7.1.3-1: Recall Stability Analysis of Infinite Slope for Cohesive Soil: i. In Dry Soil Conditions ii. In Submerged Slope iii. In Steady Seepage along the |
| Stability Analysis of Finite Slopes (Part-I) | 7 | ALO 7.2.1-1: Define Wedge Failure |
| 11 | ALO 7.2.1-2: Recall Φu = 0 Analysis | |
| 14 | ALO 7.2.1-3: Describe the Friction Circle Method for Analysis of Finite Slope | |
| 3 | ALO 7.2.1-4: Recall Taylor’s Stability Number and its significance | |
| Stability Analysis of Finite Slopes (Part-II) | 16 | ALO 7.2.2-1: Describe the Swedish Circle Method for Analysis of Finite Slope |
| 4 | ALO 7.2.2-2: Recall the Location of Most Critical Circle | |
| 11 | ALO 7.2.2-3: Describe the Culmann’s Method for Stability Analysis of Homogeneous Finite Slope | |
| Stability of Slopes under different Practical Conditions | 23 | ALO 7.2.3-1: Recall Stability of Finite Slopes under the following Conditions: i. Steady Seepage Condition ii. Sudden Drawdown Condition iii. During Construction Condition |
| Soil Mechanics – Session 6 | |
| Session Topics : 5 Active Learning Outcomes : 14 |
Summary Quiz : 5 Video Play Time : ~3 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Earth Pressure Theory | 10 | ALO 8.1.1-1: Define the following terms: i. Retaining Wall ii. Backfill iii. Wedge |
| 16 | ALO 8.1.1-2: Recall the Condition of Plastic Equation ALO 8.1.1-3: Classify Lateral Earth Pressure | |
| 15 | ALO 8.1.1-4: Describe Earth Pressure at Rest | |
| Rankine’s Earth Pressure Theory (Part-I) | 28 | ALO 8.1.2-1: Recall the Rankine’s Theory for Cohesionless Soil |
| 12 | ALO 8.1.2-2: Recall Effect of Surcharge on the Earth Pressure | |
| 15 | ALO 8.1.2-3: Recall Effect of various Backfills on the Earth Pressure | |
| 7 | ALO 8.1.2-4: Recall Effect of Inclined Backfill on the Earth Pressure | |
| Rankine’s Earth Pressure Theory (Part-II) | 10 | ALO 8.1.3-1: Recall Rankine’s Earth Pressure Theory for the Cohesive Soil |
| 13 | ALO 8.1.3-2: Derive an expression for the Depth of Tensile Crack ALO 8.1.3-3: Derive an expression for Height of Unsupported Vertical cut | |
| Coulomb’s Wedge Theory Method | 9 | ALO 8.2.1-1: Recall the assumptions of Coulomb Wedge Theory |
| 23 | ALO 8.2.1-2: Recall the Coulomb Wedge Theory for Cohesionless Soil | |
| 4 | ALO 8.2.1-3: Recall the Coulomb Wedge Theory for Cohesive Soil | |
| Culmann’s and Rebhann’s Method | 11 | ALO 8.2.2-1: Recall Culmann’s Theory for the Earth Pressure |
| 7 | ALO 8.2.2-2: Recall Rebhann’s Theory for the Earth Pressure |
| Soil Mechanics – Session 7 | |
| Session Topics : 14 Active Learning Outcomes : 42 |
Summary Quiz : 14 Video Play Time : ~7 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Machine Foundation | 18 | ALO 9.1.1-1: Define the following terms: i. Vibration ii. Periodic Motion and Cycle iii. Free and Forced Vibration iv. Frequency and Natural Frequency v. Resonance and Damping vi. Degree of Freedom |
| 4 | ALO 9.1.1-2: List various types of Machine Foundation | |
| Criteria for Machine Foundation | 8 | ALO 9.1.2-1: Recall the General Criteria for Machine Foundation |
| 19 | ALO 9.1.2-2: Derive an expression for Free Vibration Motion | |
| 10 | ALO 9.1.2-3: Derive an expression for Forced Vibration Motion | |
| Analysis of Machine Foundation | 13 | ALO 9.1.3-1: Recall the Vibration Analysis of Machine Foundation |
| 5 | ALO 9.1.3-2: Describe the determination of Natural Frequency | |
| Introduction to Pile Foundation | 6 | ALO 10.1.1-1: Define the term Pile |
| 7 | ALO 10.1.1-2: Recall the necessity of the Pile Foundation | |
| 18 | ALO 10.1.1-3: Classify the Pile | |
| 5 | ALO 10.1.1-4: Describe the Driven cast-in-situ concrete Piles | |
| Load Carrying Capacity of Piles | 20 | ALO 10.1.2-1: Describe Static Methods for the following: i. Driven Piles in Sand ii. Driven Piles in Saturated Clay iii. For Bored Piles |
| 5 | ALO 10.1.2-2: Recall the concept of Negative Skin Friction | |
| 7 | ALO 10.1.2-3: Describe Under-Reamed Piles in the Clay | |
| 6 | ALO 10.1.2-4: Recall Dynamic Formula for the Driven Piles | |
| Group Action of Piles | 7 | ALO 10.1.3-1: Recall the concept of Group Action of Piles |
| 6 | ALO 10.1.3-2: Recall the efficiency of the Group of Piles | |
| 9 | ALO 10.1.3-3: Describe Pile-Groups in Sand, Gravels, and Clay | |
| 4 | ALO 10.1.3-4: Recall Settlement of the Pile Group | |
| 3 | ALO 10.1.3-5: Describe Sharing of Loads in the Pile Group | |
| Foundation and its Basics | 19 | ALO 11.1.1-1: Recall the following terms: i. Foundation and Footing ii. Gross pressure intensity iii. Net pressure intensity iv. Ultimate bearing capacity v. Net ultimate bearing capacity vi. Net safe bearing capacity vii. Safe bearing capacity |
| 10 | ALO 11.1.1-2: Recall the types of Shear Failure | |
| Terzaghi’s Theory of Bearing Capacity | 23 | ALO 11.1.2-1: Recall the assumptions of Terzaghi’s Theory of Bearing Capacity ALO 11.1.2-2: Recall Terzaghi’s Theory of Bearing Capacity |
| 9 | ALO 11.1.2-3: Describe the Bearing Capacity for different types of Shallow Foundation | |
| 10 | ALO 11.1.2-4: Recall the Factors affecting the bearing capacity of Shallow foundation | |
| Plate Load Test | 18 | ALO 11.2.1-1: Describe the Procedure of Plate Load Test |
| 4 | ALO 11.2.1-2: Recall the Limitations of the Plate Load Test | |
| Basics of Sub-Surface Exploration | 7 | ALO 12.1.1-1: Define Sub-Surface Exploration ALO 12.1.1-2: Recall the Purpose and Need of Sub-Surface Exploration. |
| 6 | ALO 12.1.1-3: List various Stages of Sub-Surface Exploration | |
| 5 | ALO 12.1.1-4: Describe the Depth Criteria of Sub-Surface Exploration | |
| Methods of Exploration | 7 | ALO 12.1.2-1: Describe Open Excavation Methods of Exploration |
| 18 | ALO 12.1.2-2: Recall different types of Boring for Exploration | |
| Types of Soil Samplers and their Uses | 7 | ALO 12.1.3-1: Classify the Soil Samples |
| 8 | ALO 12.1.3-2: Recall the Design Features of affecting the Sample Distribution | |
| 17 | ALO 12.1.3-3: Describe the following types of Samplers: i. Split Spoon Sampler ii. Scraper Bucket Sampler iii. Shell by Tubes and Thin-Walled Samplers iv. Piston Sampler v. Hand Carved Sampler |
|
| Field Tests and Methods For Site Investigation | 24 | ALO 12.2.1-1: Describe the following Field Tests: i. Standard Penetration Test ii. Cone Penetration Test iii. In-situ Test using Pressure Meter |
| 12 | ALO 12.2.1-2: Recall the Geo-Physical Method ALO 12.2.1-3: Recall the Seismic Method | |
| 5 | ALO 12.2.1-4: Recall the Electrical Resistivity Methods | |
| 5 | ALO 12.2.1-5: Recall the Process of Measurement of Ground Water Level | |
| Ground Improvement Techniques | 23 | ALO 12.2.2-1: Describe the Methods of Improvement of Cohesive Soil |
| 19 | ALO 12.2.2-2: Describe the Improvement of Cohesionless Soil | |
| 11 | ALO 12.2.2-3: Recall General Methods of the Ground Improvement |
| Surveying – Session 1 | |
| Session Topics : 5 Active Learning Outcomes : 13 |
Summary Quiz : 5 Video Play Time : ~2 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Classification and Principle of Surveying | 14 | ALO 1.1.1-1: Define the term Surveying ALO 1.1.1-2: Recall the Primary Division of Surveying |
| 28 | ALO 1.1.1-3: Classify Surveying on the basis of the following: i. Nature of Field Survey ii. Object of Survey iii. Instrument Used ALO 1.1.1-4: Recall the Principle of Surveying |
|
| Scales and its types | 14 | ALO 1.1.2-1: Define the following terms: i. Plan ii. Map iii. Scale |
| 7 | ALO 1.1.2-2: List various Scales used in the Surveying | |
| 3 | ALO 1.1.2-3: Describe Errors due to the wrong Scales | |
| Duties of Surveyor | 8 | ALO 1.1.3-1: Recall The fieldwork of the Surveyor |
| 10 | ALO 1.1.3-2: Recall Office work of the Surveyor ALO 1.1.3-3: Describe care and adjustment of the Instrument | |
| Types and Sources of Errors | 5 | ALO 1.2.1-1: Define the following Terms: i. Precision ii. Accuracy iii. Errors |
| 9 | ALO 1.2.1-2: Differentiate between Precision and Accuracy ALO 1.2.1-3: List various types of Error | |
| 4 | ALO 1.2.1-4: Recall different Sources of Errors | |
| Theory of Probability | 5 | ALO 1.2.2-1: Define Probability Curve |
| 5 | ALO 1.2.2-2: Recall the following terms: i. Principle of Least Square ii. Most Probable Value iii. Most Probable Error |
|
| 8 | ALO 1.2.2-3: Describe Errors in the computed Results |
| Surveying – Session 2 | |
| Session Topics : 11 Active Learning Outcomes : 32 |
Summary Quiz : 11 Video Play Time : ~7 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Different Instruments for Chaining (Part-I) | 20 | ALO 2.1.1-1: Recall different Methods for the Linear Measurements |
| 14 | ALO 2.1.1-2: Define Chain Surveying ALO 2.1.1-3: Describe different types of Chains used for the Surveying | |
| 8 | ALO 2.1.1-4: Describe different types of Measuring Tapes used in the Surveying | |
| Different Instruments for Chaining (Part-II) | 2 | ALO 2.1.2-1: List various types of accessories used in the Chain Survey |
| 17 | ALO 2.1.2-2: Recall the Functions of the following: i. Arrows and Pegs ii. Ranging Rods iii. Offset Rod |
|
| 6 | ALO 2.1.2-3: Recall different Minor Instruments used in the Surveying | |
| Ranging | 4 | ALO 2.1.3-1: Define the term Ranging |
| 18 | ALO 2.1.3-2: Describe the methods of Ranging out Survey Lines: i. Direct Ranging ii. Indirect Ranging |
|
| Measurement of Length | 11 | ALO 2.1.4-1: Recall the procedure to Measure the Length with the help of Tape/Chain |
| 13 | ALO 2.1.4-2: Describe the Errors due to Incorrect Chain | |
| 13 | ALO 2.1.4-3: Describe the Methods of Measurement of Length on Uneven/Sloping Ground | |
| Errors in Chaining and various Corrections | 32 | ALO 2.1.5-1: Recall Errors in Chaining and various Corrections ALO 2.1.5-2: Classify Errors in Chaining |
| 23 | ALO 2.1.5-3: Classify the Corrections | |
| Bearing and Angles | 6 | ALO 2.2.1-1: Define Traverse Survey |
| 9 | ALO 2.2.1-2: Define Bearing and classify it | |
| 10 | ALO 2.2.1-3: Recall the Designation of Bearing | |
| 13 | ALO 2.2.1-4: Describe the Conversion of Bearing from one System to another | |
| Calculation of Angles and Bearing | 6 | ALO 2.2.2-1: Define the Following term: i. Fore Bearing ii. Back Bearing |
| 12 | ALO 2.2.2-2: Describe the relationship between Fore Bearing and Back Bearing | |
| 20 | ALO 2.2.2-3: Calculate: i. Angles from the given Bearing ii. Bearing from the given Angles |
|
| Types of Compass | 29 | ALO 2.2.3-1: Recall the Functions and Working of the following: i. Prismatic Compass ii. Surveyor’s Compass |
| 22 | ALO 2.2.3-2: Describe the Adjustment of Prismatic Compass and Surveyor’s Compass | |
| 6 | ALO 2.2.3-3: Differentiate between the Prismatic Compass and Surveyor’s Compass | |
| Declination and Local Attraction | 6 | ALO 2.2.4-1: Recall the Magnetic Declination |
| 11 | ALO 2.2.4-2: Classify the Variations in Declination | |
| 26 | ALO 2.2.4-3: Define Local Attraction and its Detection | |
| Chain Triangulation | 7 | ALO 2.3.1-1: Define the following Terms: i. Chain Triangulation ii. Survey Station |
| 5 | ALO 2.3.1-2: Classify the Survey Lines | |
| 4 | ALO 2.3.1-3: Recall the Conditions to be fulfilled by the Survey Stations | |
| 5 | ALO 2.3.1-4: Describe the Procedure of Locating Offsets | |
| Field Work and Instrument used in TriangulatioN | 18 | ALO 2.3.2-1: Describe the Steps to Perform Fieldwork of the Chain Surveying |
| 19 | ALO 2.3.2-2: Recall the Functions of the following: i. Cross Staff ii. Prism Square iii. Optical Square |
| Surveying – Session 3 | |
| Session Topics : 10 Active Learning Outcomes : 25 |
Summary Quiz : 10 Video Play Time : ~5 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Components of Theodolite | 6 | ALO 3.1.1-1: Define and classify Theodolite |
| 16 | ALO 3.1.1-2: Recall the essential components of Theodolite and their Functions | |
| 8 | ALO 3.1.1-3: Define the following terms: i. The Vertical Axis and Horizontal Axis ii. Line-of-Sight and Centering iii. Axis of Level Tube iv. Transiting and Swinging the Theodolite v. Face-Left and Face-Right Observations |
|
| Measurements of Horizontal and Vertical Angles | 18 | ALO 3.1.2-1: Recall the Temporary Adjustment |
| 28 | ALO 3.1.2-2: Describe the Measurement of Horizontal Angle by: i. General Procedure ii. Repetition Method iii. Reiteration Method |
|
| 5 | ALO 3.1.2-3: Describe the Measurement of Vertical Angles | |
| Miscellaneous Operations with Theodolite | 6 | ALO 3.1.3-1: Recall the Measurement of Magnetic Bearing of Line |
| 10 | ALO 3.1.3-2: Recall the Measurement of Deflection Angle | |
| 4 | ALO 3.1.3-3: Describe the Location of Point of Intersection of two Straight Lines | |
| Sources of Error in Theodolite Work | 8 | ALO 3.1.4-1: Recall different types of Instrumental Errors |
| 4 | ALO 3.1.4-2: Classify the Personal Errors in Theodolite Work | |
| 2 | ALO 3.1.4-3: Describe the Sources of Natural Errors | |
| Methods of Traversing | 6 | ALO 3.2.1-1: Define and classify Traversing |
| 7 | ALO 3.2.1-2: Describe the following Traversing methods: i. Chain Traversing ii. Chain and Compass Traversing |
|
| 25 | ALO 3.2.1-3: Describe the Traversing by: i. Fast Needle Method ii. Measurement of Angles between Lines |
|
| Checks in Traverse and Traverse Computation | 13 | ALO 3.2.2-1: Describe the Check for Angular work: i. In closed Traverse ii. In Open Traverse |
| 10 | ALO 3.2.2-2: Describe the Consecutive Co-ordinate and their Sign Conventions | |
| 16 | ALO 3.2.2-3: Define the Closing Error and its Computation | |
| 5 | ALO 3.2.2-4: Recall the Adjustment of Angular Error and Bearings | |
| Balancing the Traverse | 16 | ALO 3.2.3-1: Describe the common methods of Adjusting a Traverse: i. Bowditch’s Method ii. Transit Method iii. Graphical Method iv. Axis Method |
| Principle of EDM | 16 | ALO 3.3.1-1: Define Electro-Magnetic Distance Measurement (EDM) ALO 3.3.1-2: Recall the Principle of Electro-Magnetic Distance Measurement (EDM) |
| 9 | ALO 3.3.1-3: Recall the concept of Modulation | |
| Types of EDM Instruments | 17 | ALO 3.3.2-1: Recall the working Principle of the following Instruments: i. Microwave Instrument ii. Visible Light Instrument iii. Infra-Red Instrument |
| Electronic Theodolite | 6 | ALO 3.3.3-1: Define Electronic Theodolite |
| 14 | ALO 3.3.3-2: Describe the working of following: i. Wild T-1000 Theomat ii. Wild T-2000 Theomat iii. Wild T-20005 Theomat |
| Surveying – Session 4 | |
| Session Topics : 12 Active Learning Outcomes : 26 |
Summary Quiz : 12 Video Play Time : ~4 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to contouring | 7 | ALO 4.1.1-1: Define the following terms: i. Contour ii. Contour Internal iii. Horizontal Equivalent |
| 8 | ALO 4.1.1-2: Recall the Factors affecting the Contour Interval | |
| 12 | ALO 4.1.1-3: Describe the Characteristics of Contour | |
| Methods of Locating contours | 9 | ALO 4.1.2-1: Describe the Direct methods of Locating Contour by Vertical control and Horizontal Control |
| 7 | ALO 4.1.2-2: Recall the Indirect Methods by: i. Squares ii. Cross-sections |
|
| Uses of contour maps | 14 | ALO 4.1.3-1: Define Contour Gradient ALO 4.1.3-2: Explain with sketches, the uses of Contour Maps |
| Instruments used in Plane Table Survey | 21 | ALO 4.2.1-1: Recall the function of the following Instruments: i. Plane Table ii. Alidade and its types iii. Plumbing Fork and Plumb Bob iv. Spirit Level v. Compass |
| Working Operation in Plane Table Survey | 9 | ALO 4.2.2-1: Describe the following Operations of Plane Table Survey: i. Levelling the Table ii. Centering the Table iii. Orientation of Table |
| 11 | ALO 4.2.2-2: Recall different Methods of Orientation of the Plane Table | |
| Methods of Plane Table Surveying Part-I | 9 | ALO 4.2.3-1: Recall the Radiation method of Plane Table Surveying |
| 10 | ALO 4.2.3-2: Describe the Intersection Method of Plane Table Surveying | |
| 7 | ALO 4.2.3-3: Recall Traversing method used in Plane Table Surveying | |
| Methods of Plane Table Surveying Part-II | 6 | ALO 4.2.4-1: Define Resection Method used in Plane Table Surveying |
| 21 | ALO 4.2.4-2: Classify the methods of Orientation of Plane Table in Resection | |
| Errors in plane table survey | 7 | ALO 4.2.5-1: Classify the Errors in Plane Tabling |
| 6 | ALO 4.2.5-2: List various Advantages and Disadvantages of Plane Tabling | |
| General methods of determing areas | 9 | ALO 4.3.1-1: Determine Area by Sub-division into Triangles |
| 20 | ALO 4.3.1-2: Determine the Area from offset to a Base Line by using: i. Mid-ordinate Rule ii. Average-ordinate Rule iii. Trapezoidal Rule iv. Simpson’s One-Third Rule |
|
| Area by Planimeter | 7 | ALO 4.3.2-1: Recall the Working of Planimeter |
| 8 | ALO 4.3.2-2: Derive an expression for determine Area using Planimeter | |
| 2 | ALO 4.3.2-3: Define Planimeter Constant | |
| Determination of volume | 19 | ALO 4.3.3-1: Derive an expression for Prismoidal Formula |
| 3 | ALO 4.3.3-2: Derive an expression for Trapezoidal Formula | |
| 2 | ALO 4.3.3-3: Recall the concept of Prismoidal Correction | |
| Volume calculation from contour plans | 13 | ALO 4.3.4-1: Recall different methods for the Calculation of Volume from Contour Plans |
| 2 | ALO 4.3.4-2: Recall the determination of Capacity of Reservoir |
| Surveying – Session 5 | |
| Session Topics : 14 Active Learning Outcomes : 32 |
Summary Quiz : 14 Video Play Time : ~6 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to levelling | 16 | ALO 5.1.1-1: Define the following terms: i. Levelling ii. Level Surface and Level Line iii. Horizontal Plane and Horizontal Line iv. Datum and Elevation v. Mean Sea Level and Bench Mark |
| 5 | ALO 5.1.1-2: Recall the methods of Levelling | |
| Levelling instruments | 16 | ALO 5.1.2-1: Describe various types of Levels used in the Levelling |
| 6 | ALO 5.1.2-2: Recall types of Levelling Staffs used in the Levelling | |
| 10 | ALO 5.1.2-3: Recall Temporary Adjustments of the Levelling | |
| Theory of direct levelling | 13 | ALO 5.1.3-1: Define and classify Direct Levelling |
| 13 | ALO 5.1.3-2: Define the following terms: i. Station ii. Height of Instrument iii. Back-sight and Fore-sight iv. Intermediate Station v. Turning Point |
|
| Calculation of reduced level | 8 | ALO 5.2.1-1: Recall Steps followed in Levelling |
| 19 | ALO 5.2.1-2: Describe the following methods of computing the Levels: i. Height of Instrument or Collimation method ii. Rise and Fall method |
|
| 3 | ALO 5.2.1-3: Compare Collimation method with Rise and Fall Method | |
| Balancing and corrections | 9 | ALO 5.2.2-1: Recall Balancing of Back-sights and Fore-sights |
| 3 | ALO 5.2.2-2: Recall Balancing of Sight on a Slope | |
| 14 | ALO 5.2.2-3: Describe the effect of Curvature and Refraction on Levelling | |
| Types of levelling | 29 | ALO 5.2.3-1: Recall following types of Levelling: i. Simple Levelling ii. Differential Levelling iii. Profile Levelling iv. Cross-section Levelling v. Reciprocal Levelling vi. Hypsometry Levelling |
| Sensitiveness of bubble tube | 8 | ALO 5.2.4-1: Describe the Functions of Level Tube |
| 16 | ALO 5.2.4-2: Describe the Sensitiveness of Level Tube | |
| Stadia Method of Tacheometry | 6 | ALO 6.1.1-1: Define Tachometer |
| 4 | ALO 6.1.1-2: Describe different Systems of Tacheometric Measurement | |
| 12 | ALO 6.1.1-3: Recall the Principle of the Stadia Method | |
| Distance and Elevation formulae for Staff | 23 | ALO 6.1.2-1: Describe the Distance and Elevation Formulae for Staff Vertical-Inclined Sight with respect to the Ground surface |
| 13 | ALO 6.1.2-2: Describe the Distance and Elevation Formulae for Staff Normal to Inclined Sight | |
| Concept of Anallactic Lens | 30 | ALO 6.1.3-1: Define Anallactic Lens ALO 6.1.3-2: Describe the following terms: i. Additive Constant ii. Multiplying Constant |
| Principle of Subtense Method | 15 | ALO 6.2.1-1: Recall the Principle of Subtense Method |
| 4 | ALO 6.2.1-2: Define Subtense Diaphragm | |
| 4 | ALO 6.2.1-3: Recall the Horizontal Subtense Measurement | |
| 4 | ALO 6.2.1-4: Recall the Effect of Angular Error on the Horizontal distance | |
| Stadia Field Work | 7 | ALO 6.2.2-1: Describe the General Arrangement of Field Work |
| 5 | ALO 6.2.2-2: Recall the Tacheometric Observations | |
| Tangential Method | 17 | ALO 6.3.1-1: Derive the expressions for Horizontal and Vertical Distance when: i. Both angles are at an angle of Elevation ii. Both angles are at an angle of Depression iii. One angle is at elevation and the other is at depression |
| 3 | ALO 6.3.1-2: Recall the Effect of Angular Error on Tangential Measurement | |
| Errors in Tacheometry | 9 | ALO 6.3.2-1: Classify the Errors in Tacheometry |
| 12 | ALO 6.3.2-2: Describe the Effect of Error in Stadia Tacheometry due to Manipulation and Sighting |
| Surveying – Session 6 | |
| Session Topics : 15 Active Learning Outcomes : 37 |
Summary Quiz : 15 Video Play Time : ~6 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Simple Curve | 6 | ALO 7.1.1-1: Classify Curves |
| 12 | ALO 7.1.1-2: Define the following terms: i. Back and Forward Tangent ii. Point of Intersection iii. Point of Curve iv. Point of Tangency v. Intersection angle and Deflection angle vi. Tangent distance and External distance |
|
| Designation of Simple Curves | 11 | ALO 7.1.2-1: Describe the Curve Designation |
| 10 | ALO 7.1.2-2: Recall the Elements of Simple Curve | |
| Linear Methods of Setting out Simple Curves | 29 | ALO 7.1.3-1: Recall Linear methods of Setting out Simple Curves: i. By Ordinates from Long Chord ii. By Bisection of Arc iii. By Offsets from Tangent iv. By Offsets from Chord Produced |
| Instrumental Method of Setting out Simple Curves | 8 | ALO 7.1.4-1: Recall the Rankine’s Method of Deflection Angle |
| 4 | ALO 7.1.4-2: Recall the Two Theodolite Method | |
| 4 | ALO 7.1.4-3: Recall the Tacheometer Method | |
| Compound curve | 13 | ALO 7.2.1-1: Recall the Elements of Compound Curve |
| 19 | ALO 7.2.1-2: Describe the relationship between Parts of Compound Curve | |
| 3 | ALO 7.2.1-3: Recall the Process of Setting Out the Compound Curve | |
| Reverse curve | 14 | ALO 7.2.2-1: Recall the Elements of Reverse Curve |
| 11 | ALO 7.2.2-2: Describe the Relationship between Parts of Reverse Curve | |
| Photo Theodolite | 11 | ALO 8.1.1-1: Recall the Basic Principle of Photo Theodolite |
| 7 | ALO 8.1.1-1: Describe the working of Photo Theodolite | |
| 16 | ALO 8.1.1-3: Define the following terms: i. Camera Axis and Picture Plane ii. Principle Point and Nodal Point iii. Focal Length and Focal Plane iv. Fiducial Mark and Axis v. Film Base |
|
| Different Operations in Terrestrial Camera | 16 | ALO 8.1.2-1: Describe the following: i. Determination of Horizontal and Vertical Angle ii. Determination of Horizontal Position of a Point iii. Determination of Focal Length of Lens |
| 9 | ALO 8.1.2-2: Recall the Elevation of Point by Photographic Measurement | |
| Aerial Camera | 32 | ALO 8.2.1-1: Recall the Components of Aerial Camera |
| Scale of Vertical Photograph | 9 | ALO 8.2.2-1: Derive an expression for Scale of Vertical Photograph |
| 9 | ALO 8.2.2-2: Define the following terms: i. Datum Scale ii. Average Scale |
|
| Vertical Photograph | 11 | ALO 8.2.3-1: Compute the Length of Line between Point of Different Elevations |
| 7 | ALO 8.2.3-2: Determine Height of Lens for a Vertical Photograph | |
| Tilted Photograph | 13 | ALO 8.2.4-1: Describe the concept of Scale of a Tilted Photograph |
| 5 | ALO 8.2.4-2: Derive the expression for Length calculation of a Line between two points using Tilted Photograph ALO 8.2.4-3: Determine the Flying Height for a Tilted Photograph. | |
| 4 | ALO 8.2.4-4: Recall the concept of Tilt Distortion ALO 8.2.4-5: Recall the concept of Relief displacement on a Tilted Photograph | |
| Flight Planning | 8 | ALO 8.2.5-1: Recall the concept of Flight Planning |
| 5 | ALO 8.2.5-2: Describe the Effective coverage of Photograph | |
| 6 | ALO 8.2.5-3: Derive an expression for the Determination of Number of Photographs | |
| 3 | ALO 8.2.5-4: Define the following terms: i. Crab ii. Drift |
|
| 19 | ALO 8.2.5-5: Describe the Radial Line Methods of Plotting | |
| Concept of Stereoscopic Vision | 9 | ALO 8.3.1-1: Define the following terms: i. Depth Perception ii. Angle of Parallax iii. Stereoscopic Fusion iv. Parallax Difference |
| 4 | ALO 8.3.1-2: Classify the Clue to Depth Perception | |
| 4 | ALO 8.3.1-3: Describe the Purpose of Stereoscope and its types | |
| Analysis of Parallax | 7 | ALO 8.3.2-1: Recall Algebraic definition of Parallax |
| 16 | ALO 8.3.2-2: Describe Parallax equations for the determination of Elevation and Ground Co-ordinates | |
| 4 | ALO 8.3.2-3: Describe the difference in Elevation by the Stereoscopic Parallax |
| Surveying – Session 7 | |
| Session Topics : 17 Active Learning Outcomes : 34 |
Summary Quiz : 17 Video Play Time : ~7 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Theory of Errors | 22 | ALO 9.1.1-1: Define the following terms: i. Independent and Conditioned Quality ii. Direct and Indirect Observations iii. Weight of Observations iv. Observed value of a Quality v. True Value of a Quality vi. Most Probable Value vii. True and Most Probable Errors viii. Observation Equation |
| Principle of Least Square | 21 | ALO 9.1.2-1: Recall the Principle of Least Square |
| 12 | ALO 9.1.2-2: Describe the Laws of Weights | |
| Determination of Probable Error | 5 | ALO 9.1.3-1: Recall the Direct observations of equal weight on a Single unknown Quantity |
| 7 | ALO 9.1.3-2: Recall the concept of Direct observations of unequal weight on a Single Unknown Quantity | |
| Determination of Most Probable Values | 5 | ALO 9.2.1-1: Define Normal Equation |
| 7 | ALO 9.2.1-2: Describe the methods of Determination of Most Probable Values | |
| Triangular Adjustments | 12 | ALO 9.2.2-1: Recall following types of Triangular Adjustments: i. Station Adjustment ii. Angle Adjustment iii. Figure Adjustment |
| Adjustments of Various Figures | 26 | ALO 9.2.3-1: Recall the Adjustments of various Figures: i. Two Connected Triangle ii. Quadrilaterals Triangle |
| Basic of Astronomy | 38 | ALO 10.1.1-1: Define the following Astronomical terms: i. The Celestial Sphere and Celestial Horizon ii. Zenith and Nadir iii. Terrestrial Poles and Equator iv. Celestial Poles and Equator v. The Sensible and Visible Horizon vi. Latitude and Co-Latitude vii. Longitude and Altitude |
| Co-ordinate Systems | 28 | ALO 10.1.2-1: Describe the Position of a Celestial body by: i. The Horizon System ii. The Independent Equatorial System iii. The Dependent Equatorial System iv. The Celestial Latitude and Longitude Systems |
| 3 | ALO 10.1.2-2: Define the term Nautical mile | |
| Spherical Trigonometry | 6 | ALO 10.1.3-1: Define the term Spherical Triangle |
| 16 | ALO 10.1.3-2: Recall the Properties and Formulae for Spherical Triangle | |
| 11 | ALO 10.1.3-3: Describe the Napier’s Rule of Circular Part | |
| Astronomical Triangles | 22 | ALO 10.1.4-1: Describe the following terms: i. Stars at Elongation ii. Stars at Prime Vertical iii. Stars at Horizon iv. Stars at Culmination ALO 10.1.4-2: Define Circumpolar Star |
| Relationship between Co-ordinates | 6 | ALO 10.1.5-1: Describe the relation between Altitude of Pole and Latitude of Observer |
| 7 | ALO 10.1.5-2: Recall the relation between Latitude of Observer & Declination and altitude of Point on Meridian | |
| 5 | ALO 10.1.5-3: Describe the relation between Right Ascension and Hour Angle | |
| Measurement of Time | 19 | ALO 10.2.1-1: Recall the Earth’s Orbital Motion Round the Sun |
| 9 | ALO 10.2.1-2: Recall the Units of Time | |
| 3 | ALO 10.2.1-3: Describe the Equation of Time | |
| Time Conversion | 12 | ALO 10.2.2-1: Recall the Inter Conversion of Local Time to Standard Time |
| 5 | ALO 10.2.2-2: Recall the Inter Conversion of Mean-Time Interval to Side Real-Time Interval | |
| 5 | ALO 10.2.2-3: Recall the Inter Conversion of GST at GMM to LST at LMM | |
| 2 | ALO 10.2.2-4: Recall the Inter Conversion of Local Mean- Time to Side Real-Time | |
| Corrections | 25 | ALO 10.3.1-1: Recall Instrumental and Astronomical Corrections to the Observed Altitude and Azimuth |
| 14 | ALO 10.3.1-2: Recall the various Observations of Time for Star/Sun | |
| 6 | ALO 10.3.1-3: Describe Time of Rising of Setting of a Heavenly body | |
| 4 | ALO 10.3.1-4: Describe the concept of Sun Dials | |
| 4 | ALO 10.3.1-5: Recall the concept of Calendar | |
| Determination of Azimuth | 21 | ALO 10.3.2-1: Describe the following Principal Methods of Azimuth determination: i. By Observations on the Stars at equal Altitudes ii. By Observation on a Circumpolar Star at Elongation iii. By Hour Angle of Star/Sun iv. By Observation of Polaris v. By Ex-meridian observations on Sun/Star |
| Determination of Latitudes | 24 | ALO 10.3.3-1: Describe the following Methods of determination of Latitudes: i. By Meridian Altitude of Sun/Star ii. By Zenith Pair Observation of Stars iii. By Meridian Altitude of Star at Lower and Upper Culmination iv. By Prime Vertical Transit |
| Determination of Longitudes | 8 | ALO 10.3.4-1: Describe the following methods of Determination of Longitudes: i. By Transportation of Chronometers ii. By Electrical Telegraph iii. By Wireless Signal |
| Surveying – Session 8 | |
| Session Topics : 9 Active Learning Outcomes : 22 |
Summary Quiz : 9 Video Play Time : ~4 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Principle of Remote Sensing | 7 | ALO 11.1.1-1: Define and classify Remote Sensing |
| 10 | ALO 11.1.1-2: Recall the Idealized Remote Sensing System | |
| 4 | ALO 11.1.1-3: Describe the Principle of Remote Sensing | |
| EM Radiation and the Atmosphere | 11 | ALO 11.1.2-1: Define and classify Scattering |
| 6 | ALO 11.1.2-2: Describe the Interaction of EM Radiation with Earth’s Surface | |
| 7 | ALO 11.1.2-3: Recall the Remote Sensing Observing Platforms | |
| Application of Remote Sensing | 4 | ALO 11.1.3-1: Define and classify Sensor |
| 7 | ALO 11.1.3-2: Recall the application of Remote Sensing | |
| Geographical Information System (GIS) | 8 | ALO 11.2.1-1: List various components of GIS |
| 9 | ALO 11.2.1-2: Describe various GIS data types | |
| 4 | ALO 11.2.1-3: Recall the applications of GIS | |
| Global Positioning System (GPS) | 10 | ALO 11.2.2-1: List various components of GPS |
| 3 | ALO 11.2.2-2: Recall the working principle of GPS | |
| 3 | ALO 11.2.2-3: Recall various applications of GPS | |
| Determination of Reduced Level of a Point Part-I | 5 | ALO 12.1.1-1: Define Trigonometric Levelling |
| 15 | ALO 12.1.1-2: Derive an expression for determination of Elevation of the given object When the base of the object is Accessible | |
| Determination of Reduced Level of a Point Part-II | 17 | ALO 12.1.2-1: Recall the determination of R.L of a point when the base of the object is Inaccessible under the following conditions: i. Instrument Axes at the same level ii. Instrument Axes at Different level iii. Instrument Axes at very Different level |
| 6 | ALO 12.1.2-2: Recall the determination of R.L of a point when the base of the object is Inaccessible when the Instrument Station is not in the Same Vertical Plane as the Elevated object | |
| Determination of Height of Elevated Object | 21 | ALO 12.1.3-1: Recall determination of Height of an Elevated object above ground when it’s base and top is visible but not accessible under the following conditions: i. Base Line Horizontal and in Line with the Object ii. Base Line Horizontal but not in Line with the Object |
| Concept of Terrestrial Refraction | 23 | ALO 12.1.4-1: Recall the concept of Terrestrial Refraction ALO 12.1.4-2: Describe the Correction of Refraction and Curvature |
| 18 | ALO 12.1.4-3: Derive an expression for the axis signal correction | |
| 17 | ALO 12.1.4-4: Derive an expression for the determination of the difference in Elevation by: i. Single Observation ii. Reciprocal Observation |
| Strength of Material – Session 1 | |
| Session Topics : 8 Active Learning Outcomes : 20 |
Summary Quiz : 8 Video Play Time : ~6 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of SOM | 7 | ALO 1.1.1-1: Define Strength of Material |
| 26 | ALO 1.1.1-2: Explain various types of assumptions in Strength of Material | |
| 9 | ALO 1.1.1-3: Differentiate between Mechanics and Strength of Materials | |
| Load and its types | 95 | ALO 1.1.2-1: Define load and explain various types of load |
| Stress and its types | 25 | ALO 1.2.1-1: Explain the basic concept of Stress |
| 21 | ALO 1.2.1-2: Classify the Stress and explain each of them | |
| 5 | ALO 1.2.1-3: Calculate the Stress of the bar | |
| 5 | ALO 1.2.1-4: State Principal of St. Venant’s | |
| Strain and its types | 3 | ALO 1.2.2-1: Define Strain |
| 39 | ALO 1.2.2-2: List and explain various types of strain | |
| 7 | ALO 1.2.2-3: Calculate the Strain of the bar | |
| Hooke’s Law and Stress-Strain Curve | 7 | ALO 1.2.3-1: State Hooke’s Law |
| 19 | ALO 1.2.3-2: Explain the behavior of the Stress-strain curve | |
| 4 | ALO 1.2.3-3: Define Proof Stress | |
| Deformation in various Section of the body | 7 | ALO 1.3.1-1: Describe and calculate the deformation due to Axial Load-in Prismatic Body |
| 6 | ALO 1.3.1-2: Describe and calculate the deformations due to Axial Load in Tapered Cylinder | |
| 10 | ALO 1.3.1-3: Describe and calculate the deformation due to Axial Load in Tapered Rectangular | |
| Principle of Superposition | 43 | ALO 1.3.2-1: Explain the concept of the principle of superposition |
| Deformation due to self-weight of body | 25 | ALO 1.3.3-1: Describe and calculate the deformation due to the Self-Weight of the body |
| 22 | ALO 1.3.3-2: Explain the Bar in Parallel |
| Strength of Material – Session 2 | |
| Session Topics : 4 Active Learning Outcomes : 15 |
Summary Quiz : 4 Video Play Time : ~4 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Elastic Constants | 19 | ALO 1.4.1-1: Explain the Volumetric Strain due to three Mutually Perpendicular Stresses |
| 12 | ALO 1.4.1-2: Explain the following term: Modulus of Elasticity, Modulus of Rigidity, Bulk Modulus, and Poisson’s Ratio | |
| 40 | ALO 1.4.1-3: Describe the relation between the elastic constants | |
| Thermal Stresses | 15 | ALO 1.4.2-1: Explain the concept of thermal stresses and strains when the body is free to move |
| 15 | ALO 1.4.2-2: Describe the thermal stresses when the body is constrained to move | |
| 5 | ALO 1.4.2-3: Describe the thermal stresses in a tapered cylindrical bar | |
| 10 | ALO 1.4.2-4: Describe the thermal stresses in a composite bar | |
| Strain Energy | 4 | ALO 1.4.3-1: Explain the concept of Strain Energy |
| 20 | ALO 1.4.3-2: Define Resilience, Proof Resilience, and, Modulus of Resilience | |
| 6 | ALO 1.4.3-3: Define Toughness and Modulus of Toughness | |
| 12 | ALO 1.4.3-4: Explain the relation between Impact load and Gradual load | |
| Mechanical properties of materials and Factor of Safety | 31 | ALO 1.5.1-2: List and explain Mechanical properties of materials |
| 13 | ALO 1.5.1-2 Define True Stress and True Strain | |
| 6 | ALO 1.5.1-3: Explain the Factor of Safety and Permissible Stress | |
| 5 | ALO 1.5.1-4: Explain the Stress-Strain curve of ideal materials |
| Strength of Material – Session 3 | |
| Session Topics : 5 Active Learning Outcomes : 7 |
Summary Quiz : 5 Video Play Time : ~4 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Types of Load, Beam, and Support | 49 | ALO 2.1.1-1: Define and classify the following terms: i. Beam ii. Load iii. Support |
| Concepts of Shear Force and Bending Moment | 14 | ALO 2.1.2-1: Recall the Sign Convention of Shear Force and Bending Moment |
| 10 | ALO 2.1.2-2: Recall the Relation between Shear Force, Bending Moment, and Load | |
| 9 | ALO 2.1.2-3: Describe the procedure for drawing Shear Force and Bending Moment diagram | |
| S.F.D & B.M.D for Cantilever Beam | 73 | ALO 2.2.1-1: Describe and calculate the Shear Force and Bending Moment for a Cantilever Beam |
| S.F.D & B.M.D for Simply Supported Beam | 68 | ALO 2.2.2-1: Describe and calculate Shear Force and Bending Moment for a Simply Supported Beam |
| S.F.D and B.M.D for Overhanging Beam and calculation of Point of Contraflexure | 17 | ALO 2.3.1-1: Describe Shear force and Bending Moment For an Overhanging Beam and calculation of Point of Contraflexure |
| Strength of Material – Session 4 | |
| Session Topics : 9 Active Learning Outcomes : 27 |
Summary Quiz : 9 Video Play Time : ~5 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Bending Stresses and its formula | 5 | ALO 3.1.1-1: Explain the concept of Bending |
| 5 | ALO 3.1.1-2: Define Simple Bending and Pure Bending | |
| 7 | ALO 3.1.1-3: Explain the assumption made in the Theory of Simple Bending | |
| 10 | ALO 3.1.1-4: Derive an expression for Bending Stresses | |
| Neutral Axis and Moment of Resistance | 6 | ALO 3.1.2-1: Explain the Neutral Axis |
| 13 | ALO 3.1.2-2: Define Moment of Resistance | |
| Section Modulus for Symmertric Section | 2 | ALO 3.2.1-1: Define Section Modulus |
| 8 | ALO 3.2.1-2: Describe and calculate Section Modulus for Rectangular and Hollow rectangular Section | |
| 6 | ALO 3.2.1-3: Describe and calculate Section Modulus for Circular and Hollow circular Section | |
| 10 | ALO 3.2.1-4: Describe and calculate Section Modulus for Square Section | |
| Section Modulus for Unsymmertric Section | 6 | ALO 3.2.2-1: Describe and calculate Section Modulus for Triangular Section |
| 18 | ALO 3.2.2-2: Describe and calculate Section Modulus for I (symmetrical and unsymmetrical) section | |
| 12 | ALO 3.2.2-3: Describe and calculate Section Modulus for T-Section | |
| Bending Stresses in Symmetrical Section | 15 | ALO 3.3.1-1: Describe and calculate the Bending Stresses in Rectangular Section |
| 7 | ALO 3.3.1-2: Describe and calculate the Bending Stresses in Circular Section | |
| 5 | ALO 3.3.1-3: Describe and calculate the Bending Stresses in Square Section | |
| Bending Stresses in Unsymmetric Section | 11 | ALO 3.3.2-1: Describe and calculate Bending Stress in Triangular Section |
| 10 | ALO 3.3.2-2: Describe and calculate Bending Stresses in I (symmetrical and unsymmetrical) section | |
| 8 | ALO 3.3.2-3: Describe and calculate Bending Stresses in T-section | |
| Comparison of Beam and Beam of uniform strength | 10 | ALO 3.4.1-1: Explain Comparison between Rectangular Beam |
| 3 | ALO 3.4.1-2: Explain Comparison between Square Beams | |
| 14 | ALO 3.4.1-3: Explain Comparison between Rectangular and circular Beams | |
| 16 | ALO 3.4.1-4: Explain the concept of Beam of Uniform Strength | |
| Eccentric loading of a Section | 21 | ALO 3.4.2-1: Explain the phenomena of Eccentric Loading on the Cross-section of the Beam |
| 8 | ALO 3.4.2-2: Explain the Middle One-Third Rule for Rectangular Section | |
| 13 | ALO 3.4.2-3: Explain the Middle One-Fourth Rule for Circular Section | |
| Composite Beam | 35 | ALO 3.5.1-1: Explain the concept of Composite Beams/Flitched Beam |
| Strength of Material – Session 5 | |
| Session Topics : 10 Active Learning Outcomes : 25 |
Summary Quiz : 10 Video Play Time : ~5 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Torsion Equation | 8 | ALO 4.1.1-1: Explain the concept of Torsion |
| 8 | ALO 4.1.1-2: Explain the assumptions in Torsion Theory | |
| 18 | ALO 4.1.1-3: Describe the Torsion Equation for Circular Shafts | |
| Polar Moment of Inertia and Polar Modulus of Section | 5 | ALO 4.1.2-1: Explain Polar Moment of Inertia |
| 8 | ALO 4.1.2-2: Explain Polar Modulus of section | |
| Torsion in Solid and Hollow circular Shaft | 7 | ALO 4.1.3-1: Describe and calculate Maximum Shear Stress and Torque for Solid Circular shaft |
| 11 | ALO 4.1.3-2: Describe and calculate Maximum Shear Stress and Torque for Hollow Circular shaft | |
| Power transmiited by Shaft and Torsional Stiffness | 7 | ALO 4.2.1-1: Explain and calculate Power transmitted by Shafts |
| 10 | ALO 4.2.1-2: Define Torsional Stiffness and Torsional Rigidity | |
| Combined Bending and Torsion of circular Shafts | 13 | ALO 4.2.2 -1: Explain the Significance of Strain Energy in Torsion |
| 8 | ALO 4.2.2-2: Describe the phenomena of Torsion in Series and Parallel | |
| 18 | ALO 4.2.2-3: Calculate the Equivalent Bending Moment and Equivalent Torque | |
| Comparison between Solid and Hollow Shaft | 7 | ALO 4.2.3-1: Explain the Design of Shaft |
| 17 | ALO 4.2.3-2: Calculate the Strength of the Shafts for Equal Weight and Equal Size | |
| 9 | ALO 4.2.3-3: Explain the Sign Convention of Twisting Moment | |
| Introduction to Shear Stress | 3 | ALO 5.1.1-1: Explain the variation of Shear Stress in the Beams |
| 16 | ALO 5.1.1-2: List various assumptions that are taken in the analysis of Shear Stress in the Beams | |
| Shear Stress Variation in Rectangular and Circular Section | 15 | ALO 5.1.2-1: Describe and calculate the Shear Stress Distribution for the Rectangular Section |
| 13 | ALO 5.1.2-2: Describe and calculate the Shear Stress Distribution for the Circular Section | |
| Shear Stress Variation in Triangular and Square Section | 18 | ALO 5.1.3-1: Describe and calculate the Shear Stress Distribution for the Triangular Section |
| 21 | ALO 5.1.3-2: Describe and calculate the Shear Stress Distribution for the Square Section | |
| Shear Stress Variation in I – Section and T – Section | 19 | ALO 5.2.1-1: Describe and calculate the Shear Stress Distribution for I-section |
| 13 | ALO 5.2.1-2: Describe and calculate the Shear Stress Distribution for T-Section | |
| 7 | ALO 5.2.1-3: Describe and calculate the Shear Stress Distribution for Channel-Section | |
| 9 | ALO 5.2.1-4: Explain the concept of Shear Center |
| Strength of Material – Session 6 | |
| Session Topics : 7 Active Learning Outcomes : 10 |
Summary Quiz : 7 Video Play Time : ~5 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Slope and Deflection | 12 | ALO 6.1.1-1: Explain the concept of Slope and Deflection |
| 11 | ALO 6.1.1-2: Describe the Differential Equation for the Slope and Deflection of the Beam | |
| 5 | ALO 6.1.1-3: List various methods to find out the Slope and Deflection | |
| Double Integration method for Cantilever Beam | 31 | ALO 6.1.2-1: Explain the Double Integration Method to find out the of Slop and Deflection for Cantilever Beam under various loading conditions i. Pont Load ii. Uniformly Distributed Load iii. Uniformly Varying Load iv. Couple at the free End |
| Double Integration method for Simply Supported Beam | 59 | ALO 6.1.3-1: Explain the Double Integration Method to find out the Slope and Deflection for Simply Supported Beam Under various Loading conditions i. Point Load ii. Uniformly Distributed load iii. Uniformly Varying Load iv. Couple at the Free End |
| Macaulay’s method for cantilever and Simply Supported Beam | 46 | ALO 6.2.1-1: Explain Macaulay’s Method to find out the of Slope and Deflection for different loading conditions |
| Moment Area Method for Cantilever Beam | 55 | ALO 6.3.1-1: Explain the Moment Area Method to find out the Slope and Deflection for Cantilever Beam under various Loading conditions i. Point Load ii. Uniformly Distributed load iii. Uniformly Varying Load iv. Couple at the free End |
| Moment Area Method for Simply Supported Beam | 15 | ALO 6.3.2-1: Explain Moment Area Method to find out the of Slope and Deflection for Simply Beam under various loading conditions i. Point Load ii. Uniformly Distributed load iii. Couple at the Support |
| Strain Energy Method for Cantilever Beam and Simply Supported Beam | 23 | ALO 6.4.1-1: Explain the Strain Energy Method to find out the Slope and Deflection for different loading conditions |
| 16 | ALO 6.4.1-2: State and prove Castigliano’s first Theorem |
| Strength of Material – Session 7 | |
| Session Topics : 9 Active Learning Outcomes : 25 |
Summary Quiz : 9 Video Play Time : ~6 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to State of Stress | 29 | ALO 7.1.1-1: Recall the concept of Critical Point and Critical Section |
| 7 | ALO 7.1.1-2: Recall the condition of Plane Stress | |
| 19 | ALO 7.1.1-3: Recall the Matrix of Stress Tensor | |
| 13 | ALO 7.1.1-1: Define Principal Stress and Principal Plane | |
| Principle Stresses | 7 | ALO 7.1.2-2: Recall the Plane of Maximum Shear Stress |
| 29 | ALO 7.1.2-3: Recall the concept of Pure Shear Stress Plane | |
| Uni-axial and Biaxial Stresses | 25 | ALO 7.1.3-1: Recall and calculate the Stresses developed due to Direct Stress or Uniaxial Stress condition |
| 14 | ALO 7.1.3-2: Recall and calculate the Stresses developed due to Biaxial with Zero Shear Stress condition | |
| Pure Stress | 18 | ALO 7.1.4-1: Recall and calculates the Stresses developed due to Pure shear stress condition |
| 6 | ALO 7.1.4-2: Recall and calculate the Stresses developed due to Biaxial with Shear Stress condition | |
| Stresses and its planes | 11 | ALO 7.2.1-1: Recall Sum of Normal Stress on Two Mutually Perpendicular Planes |
| 8 | ALO 7.2.1-2: Describe and calculate Principal Stresses and its Planes | |
| 12 | ALO 7.2.1-3: Describe and calculate Maximum Shear Stresses and their Planes | |
| 9 | ALO 7.2.1-4: Describe and calculate Normal Stress on the Plane of Maximum Shear Stress | |
| Mohr’s Circle for Stresses | 11 | ALO 7.2.2-1: Recall the concept of Mohr’s Circle |
| 80 | ALO 7.2.2-2: Draw the Mohr’s Circle for the following State of Stress i. For Uni-axial Stress ii. For Bi-axial with Zero Shear Stress iii. For Pure Shear Stress iv. For Bi-axial with Shear Stress |
|
| State of Strain and Strain Tensor | 11 | ALO 7.3.1-1: Recall State of Strain and Strain Tensor |
| 3 | ALO 7.3.1-2: Recall and calculate the Normal Strain in Oblique Planes | |
| 6 | ALO 7.3.1-3: Explain and calculate the Shear Strains in Oblique Planes | |
| 4 | ALO 7.3.1-4: Determine the Principal Strain and its Planes | |
| 7 | ALO 7.3.1-5: Determine Maximum Shear Strain and its Planes | |
| Strain Rosettes | 9 | ALO 7.3.2-1: Determine the relation between Principal Stresses and Principal Strains |
| 13 | ALO 7.3.2-2: Recall the concept of Strain Rosettes | |
| Starin Energy | 5 | ALO 7.3.3-1: Recall and calculate the Strain Energy in Three-Dimensional Stress System |
| 3 | ALO 7.3.3-2: Recall and calculate the Shear Strain Energy in Three-Dimensional Stress System |
| Strength of Material – Session 8 | |
| Session Topics : 9 Active Learning Outcomes : 22 |
Summary Quiz : 9 Video Play Time : ~3 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Column and modes of failure | 6 | ALO 8.1.1-1: Define the term Column, Strut, and Tie |
| 5 | ALO 8.1.1-2: Explain the Failure Modes of Column | |
| 9 | ALO 8.1.1-3: Differentiate between the Buckling and Crushing Load of Failure | |
| Euler’s Theory of Column | 2 | ALO 8.1.2-1: Explain Euler’s Theory of Column |
| 8 | ALO 8.1.2-2: Describe and calculate the Euler’s formula for Crippling Load when both ends Hinged | |
| 10 | ALO 8.1.2-3: Describe and calculate the Euler’s formula for Crippling Load when one end is fixed and the other Hinged | |
| Effective length of a Column and Slenderness ratio | 10 | ALO 8.2.1-1: Explain the Effective Length of a Column |
| 14 | ALO 8.2.1-2: Define Slenderness Ratio of a Column | |
| 7 | ALO 8.2.1-3: Explain the assumptions and limitations of Euler’s Theory | |
| Rankine Formula | 10 | ALO 8.2.2-1: Explain the Rankine formula for Crippling Load |
| Introduction to Thin cylinder | 2 | ALO 9.1.1-1: Define Pressure Vessel |
| 2 | ALO 9.1.1-2: List various types of Pressure Vessels | |
| 11 | ALO 9.1.1-3: Classify Stresses in Pressure Vessels | |
| Thin Cylindrical shell subjected to internal pressure | 14 | ALO 9.1.2-1: Describe the Circumferential and Longitudinal Stresses for Thin Cylindrical Shell subjected to an Internal Pressure |
| 12 | ALO 9.1.2-2: Explain the Maximum Shear Stress in Thin Cylindrical Shell | |
| Volumetric Strain of thin cylindrical shell | 12 | ALO 9.1.3-1: Describe Circumferential and Longitudinal Strain for Thin Cylindrical Shell subjected to an Internal Pressure |
| 4 | ALO 9.1.3-2: Explain Volumetric Strain of Thin Cylindrical Shell | |
| Thin Spherical shells subjected to internal pressure | 12 | ALO 9.1.4-1: Explain the phenomena of Thin Spherical Shell |
| 6 | ALO 9.1.4-2: Explain The Volumetric Strain in a Thin Spherical Shell | |
| 9 | ALO 9.1.4-3: Explain the Stresses in Hemispherical Portion of the Shell | |
| Stresses in a Thick Cylindrical shell and Thick Spherical shell | 37 | ALO 9.2.1-1: Describe Lame’s Equation to find out Stresses in Thick Cylinder and assumptions made in Lame’s Theory |
| 8 | ALO 9.2.1-2: Describe Lame’s Equation to find out the Stresses in Thick Spherical Shell |
| Fluid Mechanics – Session 1 | |
| Session Topics : 12 Active Learning Outcomes : 34 |
Summary Quiz : 12 Video Play Time : ~4 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Basics of Fluid Mechanics | 7 | ALO 1.1.1-1: Define Fluid Mechanics |
| 10 | ALO 1.1.1-2: Define Hydrostatics and Hydrodynamics | |
| 3 | ALO 1.1.1-3: Explain the basic concept of Fluid | |
| Types of Fluid | 15 | ALO 1.1.2-1: List various types of Fluids ALO 1.1.2-2: Define and differentiate between the Ideal and Practical Fluids ALO 1.1.2-3: Define and differentiate between the Compressible and Incompressible Fluids |
| 18 | ALO 1.1.2-4: Define and differentiate between the Newtonian and Non-Newtonian Fluids | |
| Properties of Fluids | 17 | ALO 1.1.3-1: List various Properties of Fluids ALO 1.1.3-2: Define Density or Mass Density |
| 5 | ALO 1.1.3-3: Define Specific Weight or Weight Density | |
| 5 | ALO 1.1.3-4: Define Specific Volume and Specific Gravity | |
| 17 | ALO 1.1.3-5: Explain Viscosity and its types ALO 1.1.3-6: State Newton’s Law of Viscosity | |
| 20 | ALO 1.1.3-7: Explain the concept of Surface Tension and Capillary | |
| Pascal’s law and Pressure Variation | 3 | ALO 1.2.1-1: Define Pressure and explain the Pressure Intensity at a point in a Fluid |
| 1 | ALO 1.2.1-2: State Pascal’s Law | |
| 2 | ALO 1.2.1-3: Explain Pressure Variation in a Fluid at Rest | |
| 9 | ALO 1.2.1-4: Explain Hydrostatic Law | |
| 6 | ALO 1.2.1-5: Define Absolute, Gauge, Atmospheric, and Vacuum Pressures | |
| Simple Manometers | 3 | ALO 1.2.2-1: Define and classify Manometers |
| 3 | ALO 1.2.2-2: Define Piezometer ALO 1.2.2-3: Explain the Simple U-tube Manometer | |
| 15 | ALO 1.2.2-4: Define and Classify Mechanical Gauges ALO 1.2.2-5: Differentiate between the Manometers and Mechanical Gauges | |
| Single Column Manometers | 5 | ALO 1.2.3-1: Define and classify Single Column Manometers ALO 1.2.3-2: Explain the Vertical Single Column Manometers |
| 6 | ALO 1.2.3-3: Inclined Single Column Manometers | |
| Differential Manometers | 2 | ALO 1.2.4-1: Differentiate between the Simple and Differential Manometer |
| 9 | ALO 1.2.4-2: Explain the U-tube Differential Manometers | |
| 6 | ALO 1.2.4-3: Explain the Inverted U-tube Differential Manometers ALO1.2.4-4: Differentiate between the U-tube Differential and Inverted U-tube Differential Manometers | |
| Hydrostatic forces and Centre of Pressure | 9 | ALO 1.3.1-1: Define Rigid Body Forces |
| 5 | ALO 1.3.1-2: Explain the Hydrostatic Forces | |
| 4 | ALO 1.3.1-3: Explain the Centre of Pressure and Total Pressure | |
| Hydrostatic forces on Plane surface | 6 | ALO 1.3.2-1: Describe the Hydrostatic Forces on the Plane Vertical Surfaces |
| 6 | ALO 1.3.2-2: Describe the Hydrostatic Forces on the Inclined Plane Surfaces ALO 1.3.2-3: Describe the Hydrostatic Forces on the Horizontal Plane Surfaces | |
| Hydrostatic forces on Curved surface | 9 | ALO 1.3.3-1: Describe the Hydrostatic Forces on the Curved Surfaces |
| Buoyancy | 4 | ALO 1.4.1-1: Define Buoyancy and Buoyant Force ALO 1.4.1-2: State Archimedes’ Principle |
| 4 | ALO 1.4.1-3: Explain the Condition for Equilibrium | |
| 2 | ALO 1.4.1-4: List and explain types of Equilibrium | |
| 4 | ALO 1.4.1-5: Describe the concept of Stability for Immersed and Floating Bodies | |
| Metacentric Height | 7 | ALO 1.4.2-1: Explain the concept of Metacentric Height |
| Fluid Mechanics – Session 2 | |
| Session Topics : 8 Active Learning Outcomes : 23 |
Summary Quiz : 8 Video Play Time : ~4 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Lagrangian and Eulerian Approach | 5 | ALO 2.1.1-1: Explain the Lagrangian and Eulerian Approaches |
| 2 | ALO 2.1.1-2: Explain the basic concept of Fluid Continuum | |
| Types of Fluid Flow | 6 | ALO 2.1.2-1: List various Types of Kinematics Fluid and differentiate between them |
| 3 | ALO 2.1.2-2: Define Steady and Unsteady Flow | |
| 3 | ALO 2.1.2-3: Define Uniform and Non-Uniform Flow | |
| 3 | ALO 2.1.2-4: Define Rotational and Irrotational Flow | |
| 9 | ALO 2.1.2-5: Define Laminar and Turbulent Flow | |
| 3 | ALO 2.1.2-6: Define Compressible and Incompressible Flow | |
| Types of Flow Lines | 8 | ALO 2.1.3-1: Explain Pathline, Streamline, and Streakline Flow ALO 2.1.3-2: Differentiate between Pathline, Streamline, and Streakline Flow |
| 6 | ALO 2.1.3-3: Explain the Differential Equation of Streamline | |
| Continuity Equation | 26 | ALO 2.2.1-1: Describe the Continuity Equation |
| 13 | ALO 2.2.1-2: Explain the Continuity Equation in Multi-Dimensional Flow ALO 2.2.1-3: Calculate the Discharge through the Continuity Equation | |
| Fluid Acceleration | 19 | ALO 2.2.2-1: Define Convective, Local, and Normal Acceleration |
| 24 | ALO 2.2.2-2: Differentiate between Convective, Local, and Normal Acceleration | |
| 4 | ALO 2.2.2-3: Define and differentiate between Tangential and Centripetal Acceleration | |
| Angular Deformation and Rotation | 17 | ALO 2.2.3-1: Explain Angular Deformation and Rotation |
| 5 | ALO 2.2.3-2: Explain Angular Velocity ALO 2.2.3-3: Differentiate between Angular Deformation, Rotation, and Velocity | |
| Circulation and Vorticity | 18 | ALO 2.3.1-1: Explain the concept of Circulation and Vorticity in Fluid Flow |
| 11 | ALO 2.3.1-2: Explain the Velocity Potential Function | |
| Potential Function and Stream Function | 27 | ALO 2.3.2-1: Explain the Stream Function in Fluid Flow |
| 11 | ALO 2.3.2-2: Describe the Relation between Equipotential Line and StreamLine | |
| 7 | ALO 2.3.2-3: Explain the concept of Flow-net | |
| 5 | ALO 2.3.2-4: State the Cauchy-Riemann Equation |
| Fluid Mechanics – Session 3 | |
| Session Topics : 10 Active Learning Outcomes : 18 |
Summary Quiz : 10 Video Play Time : ~5 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Various Forces acting on the Fluid elements | 11 | ALO 3.1.1-1: List and explain various Forces which are acting on the Fluid Elements |
| Bernoulli Equation and its limitation | 40 | ALO 3.1.2-1: Recall the significance of Bernoulli Equation in Fluid Flow |
| Venturi Meter | 65 | ALO 3.2.1-1: Recall the Venturimeter ALO 3.2.1-2: Calculate the Discharge Rate and Velocity Flow of Venturimeter in different Conditions |
| Orifice Meter | 7 | ALO 3.2.2-1: Recall the working phenomena of Orificemeter ALO 3.2.2-2: Determine the Discharge through Orificemeter |
| Pitot Tube and Flow nozzles | 14 | ALO 3.2.3-1: Recall the working phenomena of Pitot-tube ALO 3.2.3-2: Calculate the Discharge through the Pitot-tube |
| 6 | ALO 3.2.3-3: Recall the Flow Nozzle ALO 3.2.3-4: Calculate the Discharge Rate of Nozzle in different Condition | |
| Weir and Notches | 11 | ALO 3.2.4-1: Recall Weir and Notches ALO 3.2.4-2: Classify Weir and Notches |
| 24 | ALO 3.2.4-3: Calculate the Discharge through the Weirs and Notches | |
| Momentum Equation and its application | 6 | ALO 3.3.1-1: Recall the Momentum Equation and Impulse Momentum Equation |
| 24 | ALO 3.3.1-2: Describe the expression for the Force exerted by a Flowing Fluid on a Pipe bend | |
| Free liquid Jets | 11 | ALO 3.3.2-1: Recall the phenomena of Free Liquid Jet and derive its Equation |
| 12 | ALO 3.3.2-2: Recall Time of Flight, Maximum Height and Horizontal Range of Jet ALO 3.3.2-3: Calculate Time of Flight, Maximum Height and Horizontal Range of Jet | |
| Impact of jet on a fixed plates in different condition | 5 | ALO 3.4.1-1: Recall the phenomena of Impact of Jet |
| 14 | ALO 3.4.1-2: Describe and calculate the Force exerted by Jet on a Flat Fixed Plate | |
| 9 | ALO 3.4.1-3: Describe and calculate the Force exerted by Jet on a Inclined Fixed Plate | |
| 9 | ALO 3.4.1-4: Describe and calculate the Force exerted by Jet on a Curved Fixed Plate | |
| Impact of jet on moving plate | 12 | ALO 3.4.2-1: Recall the phenomena of Impact of Jet on a Moving Plate ALO 3.4.2-2: Describe and calculate the Force exerted by Jet on a Flat Moving Plate |
| 9 | ALO 3.4.2-3: Describe and calculate the Force exerted by Jet on a Series of Flat vanes mounted on a Wheel |
| Fluid Mechanics – Session 4 | |
| Session Topics : 6 Active Learning Outcomes : 14 |
Summary Quiz : 6 Video Play Time : ~2 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Vortex Flow | 20 | ALO 4.1.1-1: Define and classify the Vortex Flow |
| 7 | ALO 4.1.1-2: Explain the Free Vortex Flow | |
| 7 | ALO 4.1.1-3: Explain the Force Vortex Flow | |
| Laminar Flow and Darcy weisbach equation | 16 | ALO 4.1.2-1: Define Laminar, Turbulent, and Internal Flow |
| 4 | ALO 4.1.2-2: Explain the Characteristics of Laminar flow | |
| 10 | ALO 4.1.2-3: Describe Darcy Weisbach Equation for Laminar Flow | |
| Laminar Equation through Circular pipes | 27 | ALO 4.2.1-1: Explain the Phenomena of Laminar Flow through Circular Pipes ALO 4.2.1-2: Calculate the Diameter and Velocity of the Flow in Circular Pipes |
| Hagen-Poiseuille Flow | 7 | ALO 4.2.2-1: Explain the concept of Hagen-Poiseuille Flow |
| 4 | ALO 4.2.2-2: Explain the function of Viscometer | |
| 4 | ALO 4.2.2-3: Describe the Shear velocity in Laminar flow | |
| Momentum and Kinetic Energy Correction Factor | 3 | ALO 4.2.3-1: Explain Kinetic Energy Correction Factor |
| 4 | ALO 4.2.3-2: Explain Momentum Correction Factor | |
| Laminar flow through two fixed plates | 6 | ALO 4.3.1-1: Explain the Phenomena of Laminar Flow through two Fixed Plates |
| 9 | ALO 4.3.1-2: Describe the Velocity and Shear Stress distribution when Laminar Flow between two Parallel Fixed Plates |
| Fluid Mechanics – Session 5 | |
| Session Topics : 8 Active Learning Outcomes : 20 |
Summary Quiz : 8 Video Play Time : ~4 Hours |
| Suggested Completion : 2 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Turbulent Flow | 9 | ALO 5.1.1-1: Explain the Characteristics of Turbulent Flow |
| 21 | ALO 5.1.1-2: Explain the Significance of Reynold’s Stress in Turbulent Flow | |
| Prandle Mixing length theory | 14 | ALO 5.1.2-1: Describe the Significance of Prandtl’s Mixing Length theory in the Turbulent Flow |
| Hydrodynamically Smooth and Rough boundaries | 15 | ALO 5.2.1-1: Describe the Velocity Distribution in Turbulent Flow in Pipes ALO 5.2.1-2: Define and differentiate between the Hydro-dynamically Smooth and Rough Boundaries |
| 9 | ALO 5.2.1-3: Describe the Velocity Distribution for the Turbulent Flow in Smooth Pipes and Rough Pipes | |
| 10 | ALO 5.2.1-4: Explain the Friction Factor in Turbulent Flow | |
| Major Energy Losses | 6 | ALO 6.1.1-1: Explain the Major Energy Losses in pipes |
| 11 | ALO 6.1.1-2: Describe Darcy’s and Chezy’s equation | |
| 21 | ALO 6.1.1-3: Calculate Loss of Head in the pipe by using Darcy’s and Chezy’s equation | |
| Minor Energy Losses | 21 | ALO 6.1.2-1: List various types of Minor Energy Losses ALO 6.1.2-2: Describe and calculate Loss of Head due to Sudden Enlargement and Contraction |
| 16 | ALO 6.1.2-3: Describe and calculate Loss of Head at Entrance and Exit of a Pipe | |
| 12 | ALO 6.1.2-4: Describe and calculate Loss of Head due to Obstruction in a Pipe and Bend in Pipe | |
| Hydraulic gradient line and Total energy line | 2 | ALO 6.2.1-1: Explain the Hydraulic Gradient Line |
| 29 | ALO 6.2.1-2: Explain the Total Energy Line | |
| Compound pipes | 12 | ALO 6.2.2-1: Describe the phenomena of Flow through Pipes in Series and Parallel |
| 11 | ALO 6.2.2-2: Explain the concept of Equivalent Pipe (Dupuits Equation) | |
| 13 | ALO 6.2.2-3: Explain the concept of Multi-Reservoir System | |
| 10 | ALO 6.2.2-4: Calculate the Power Transmission through Pipes | |
| Siphon pipes and Water hammer | 18 | ALO 6.2.3-1: Explain the Flow-through Syphon Pipe |
| 6 | ALO 6.2.3-2: Explain the concept of Water hammer |
| Fluid Mechanics – Session 6 | |
| Session Topics : 6 Active Learning Outcomes : 19 |
Summary Quiz : 6 Video Play Time : ~3 Hours |
| Suggested Completion : 1 Topic Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Boundary layer concept and its Characteristics | 11 | ALO 7.1.1-1: Explain the Boundary Layer concept |
| 8 | ALO 7.1.1-2: Explain the Laminar Boundary Layer, Turbulent Boundary Layer, and Laminar sub-Layer | |
| Boundary layer thickness | 8 | ALO 7.1.2-1: Describe the Boundary Layer Thickness |
| 18 | ALO 7.1.2-2: Explain the Displacement Thickness, Momentum Thickness, and Energy Thickness | |
| 20 | ALO 7.1.2-3: Define the Shape Factor ALO 7.1.2-4: Compute the Boundary Layer Thickness | |
| Von-karman momentum integral equation | 25 | ALO 7.1.3-1: Describe the Momentum Integral Equation for the Boundary Layer (Von-Karman) |
| 8 | ALO 7.1.3-2: Explain the essential features of Blasius method of solving Laminar Boundary Layer Equations for a Flat Plate | |
| Boundary layer seperation | 8 | ALO 7.2.1-1: Explain the phenomena of Separation of Boundary Layer |
| 4 | ALO 7.2.1-2: Explain the Effect of Pressure Gradient on Boundary Layer Separation | |
| 9 | ALO 7.2.1-3: Explain the Methods of Preventing the Separation of Boundary Layer | |
| Drag Forces | 17 | ALO 7.3.1-1: Explain the Drag Forces |
| 2 | ALO 7.3.1-2: List various types of Drag Forces | |
| 13 | ALO 7.3.1-3: Describe the Local Drag Co-efficient | |
| 6 | ALO 7.3.1-4: Explain the Drag Forces on Sphere and Cylinder ALO 7.3.1-5: Calculate the Drag Forces and Co-efficient of Drag | |
| Lift Forces | 10 | ALO 7.3.2-1: Explain the Lift Forces |
| 12 | ALO 7.3.2-2: Describe the development of Lift on a Circular Cylinder | |
| 17 | ALO 7.3.2-3: Describe the Lift Forces and Lift Coefficient for a Rotating Cylinder | |
| 1 | ALO 7.3.2-4: Define Magnus Effect | |
| 11 | ALO 7.3.2-5: Explain the Development of Lift on an Airfoil |
| Fluid Mechanics – Session 7 | |
| Session Topics : 14 Active Learning Outcomes : 38 |
Summary Quiz : 14 Video Play Time : ~5 Hours |
| Suggested Completion : 3 Topics Per Day | |
| Topic Name | Video Play Time (min) | Learning Outcomes |
|---|---|---|
| Introduction to Dimensional Analysis | 23 | ALO 8.1.1-1: Explain the concept of Dimensional Analysis ALO 8.1.1-2: Define the Fundamental and Derived units |
| 3 | ALO 8.1.1-3: List uses of Dimensional Analysis | |
| 5 | ALO 8.1.1-4: List advantages and limitations of Dimensional Analysis | |
| Rayleigh’s Method | 21 | ALO 8.1.2-1: List the Methods of Dimensional Analysis ALO 8.1.2-2: Explain the Rayleigh’s Method for Dimensional Analysis |
| Buckingham’s Theorem | 26 | ALO 8.1.3-1: Explain the Buckingham’s Ï€ method for Dimensional Analysis |
| Forces acting on the fluid and Dimensionless number | 11 | ALO 8.2.1-1: List and define the various Forces acting on the Fluid Flow |
| 3 | ALO 8.2.1-2: Define the Dimensionless Number | |
| 5 | ALO 8.2.1-3: Classify the Dimensionless Number ALO 8.2.1-4: Explain Reynold’s, Froude’s, Mach, Weber’s, and Euler’s Number | |
| Model Analysis and Similitude | 5 | ALO 8.2.2-1: Define the Model Analysis |
| 2 | ALO 8.2.2-2: List various Advantages of Model Analysis | |
| 11 | ALO 8.2.2-3: Explain the term Similitude ALO8.2.2-4: List and explain various Types of Similitudes | |
| Model Laws | 17 | ALO 8.2.3-1: Explain the following Model Laws i. Reynold’s Model Law ii. Froude Model Law iii. Euler Model Law iv. Weber Model Law v. Mach Model Law |
| Introduction to Turbine and Pump | 17 | ALO 9.1.1-1: Define Hydraulic Machines, Turbines, and Pumps |
| 2 | ALO 9.1.1-2: Classify Turbine and Pump | |
| 3 | ALO 9.1.1-3: Explain the Hydroelectric Power | |
| 9 | ALO 9.1.1-4: Explain the general layout of Hydroelectric Power Plant | |
| 2 | ALO 9.1.1-5: Define Gross Head and Net Head | |
| Efficiencies of a Turbine and Classification of Hydraulic Turbines | 13 | ALO 9.1.2-1: Define the Efficiency of Turbine |
| 7 | ALO 9.1.2-2: Explain the different types of Efficiency of a Turbine | |
| 7 | ALO 9.1.2-3: Classify the Hydraulic Turbines | |
| Pelton Wheel (or Turbine) | 17 | ALO 9.2.1-1: Explain the working of the Pelton Wheel ALO 9.2.1-2: Describe the Velocity Triangles and Work done for a Pelton Wheel |
| 17 | ALO 9.2.1-3: Explain the Maximum Efficiency of the Pelton Wheel | |
| 6 | ALO 9.2.1-4: Describe the procedure for Designing of Pelton Wheel | |
| Reaction Turbines | 7 | ALO 9.2.2-1: Explain the Reaction Turbines and its Components |
| 3 | ALO 9.2.2-2: Explain the Function of the Draft Tube | |
| 1 | ALO 9.2.2-3: List various types of Draft Tube | |
| 2 | ALO 9.2.2-4: Describe the Efficiency of the Draft Tube | |
| Francis Turbine | 3 | ALO 9.2.3-1: Explain the working of the Francis Turbine |
| 3 | ALO 9.2.3-2: Describe the Velocity Triangles and Work done for a Francis Turbine ALO 9.2.3-3: Explain the Efficiency of the Francis Turbine | |
| 2 | ALO 9.2.3-4: Describe Working Proportion of Francis Turbine | |
| 2 | ALO 9.2.3-5: Explain the Analysis of the Francis Turbine | |
| Axial Flow Reaction Turbine | 9 | ALO 9.2.4-1: Explain Axial-Flow Turbines (Kaplan and Propeller Turbine) |
| 9 | ALO 9.2.4-2: Describe working Proportions of Kaplan Turbine | |
| Specific speed of turbine | 8 | ALO 9.2.5-1: Explain the Specific Speed of a Turbine |
| 4 | ALO 9.2.5-2: Explain the Non-dimensional Specific speed (Shape number) of a Turbine ALO 9.2.5-3: List and explain the different types of Unit Quantities | |
| Model testing and cavitation in turbine | 6 | ALO 9.2.6-1: Explain Model Testing of the Turbines |
| 8 | ALO 9.2.6-2: Explain the Cavitation in Turbine | |
| 3 | ALO 9.2.6-3: Define Thomas Cavitation Factor |