RCC Design – Lecture 36 | Design of Counterfort Retaining Wall
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RCC Design – Lecture 36 | Design of Counterfort Retaining Wall
18:54
RCC Design – Lecture 35 | Design of Cantilever Retaining Wall with surcharge traffic load
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RCC Design – Lecture 35 | Design of Cantilever Retaining Wall with surcharge traffic load
18:39
RCC Design – Lecture 34 | Design of Cantilever Retaining Wall with sloped topsoil surface
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RCC Design – Lecture 34 | Design of Cantilever Retaining Wall with sloped topsoil surface
23:10
RCC Design – Lecture 33 | Design of Cantilever Retaining Wall with levelled topsoil surface
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RCC Design – Lecture 33 | Design of Cantilever Retaining Wall with levelled topsoil surface
29:47
RCC Design – Lecture 32 | Design of Overhead Intze Water Tank (Part 5)
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RCC Design – Lecture 32 | Design of Overhead Intze Water Tank (Part 5)
6:48
RCC Design – Lecture 31 | Design of Overhead Intze Water Tank (Part 4)
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RCC Design – Lecture 31 | Design of Overhead Intze Water Tank (Part 4)
17:52
RCC Design – Lecture 30 | Design of Overhead Intze Water Tank (Part 3)
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RCC Design – Lecture 30 | Design of Overhead Intze Water Tank (Part 3)
19:40
RCC Design – Lecture 29 | Design of Overhead Intze Water Tank (Part 2)
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RCC Design – Lecture 29 | Design of Overhead Intze Water Tank (Part 2)
19:37
RCC Design – Lecture 28 | Design of Overhead Intze Water Tank (Part 1)
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RCC Design – Lecture 28 | Design of Overhead Intze Water Tank (Part 1)
15:48
Engineering Mechanics | Lecture 36 | Kinetics | Work-Energy Principle
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Engineering Mechanics | Lecture 36 | Kinetics | Work-Energy Principle
16:21
Engineering Mechanics | Lecture 35 | Kinetics | Impulse-Momentum Principle
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Engineering Mechanics | Lecture 35 | Kinetics | Impulse-Momentum Principle
22:59
Engineering Mechanics | Lecture 34 | Kinetics | D'Alembert's Principle
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Engineering Mechanics | Lecture 34 | Kinetics | D'Alembert's Principle
25:13
Engineering Mechanics | Lecture 33 | Curvilinear Motion | Proectile Motion
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Engineering Mechanics | Lecture 33 | Curvilinear Motion | Proectile Motion
15:27
Engineering Mechanics | Lecture 32 | Curvilinear Motion | Circular Motion
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Engineering Mechanics | Lecture 32 | Curvilinear Motion | Circular Motion
12:45
Engineering Mechanics | Lecture 31 | Rectilinear Motion | Motion under Gravity
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Engineering Mechanics | Lecture 31 | Rectilinear Motion | Motion under Gravity
14:10
Engineering Mechanics | Lecture 30 | Rectilinear Motion | Variable Acceleration
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Engineering Mechanics | Lecture 30 | Rectilinear Motion | Variable Acceleration
18:33
Engineering Mechanics | Lecture 29 | Rectilinear Motion | Constant Acceleration
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Engineering Mechanics | Lecture 29 | Rectilinear Motion | Constant Acceleration
20:53
FreeCAD for Engineering Drafting | Video 15 | Drafting the Orthographic View from Isometric View
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FreeCAD for Engineering Drafting | Video 15 | Drafting the Orthographic View from Isometric View
23:39
Engineering Mechanics | Lecture 28 | Applications of Friction | Belt
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Engineering Mechanics | Lecture 28 | Applications of Friction | Belt
23:08
Engineering Mechanics | Lecture 27 | Applications of Friction | Screw
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Engineering Mechanics | Lecture 27 | Applications of Friction | Screw
19:59
FreeCAD for Engineering Drafting | Video 14 | Drafting the Isometric View of an Object
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FreeCAD for Engineering Drafting | Video 14 | Drafting the Isometric View of an Object
11:49
FreeCAD for Engineering Drafting | Video 13 | Drafting the Intersection of Solids
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FreeCAD for Engineering Drafting | Video 13 | Drafting the Intersection of Solids
24:56
RCC Design – Lecture 27 | Design of Underground Rectangular Water Tank (Part-2)
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RCC Design – Lecture 27 | Design of Underground Rectangular Water Tank (Part-2)
16:25
RCC Design – Lecture 26 | Design of Underground Rectangular Water Tank (Part-1)
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RCC Design – Lecture 26 | Design of Underground Rectangular Water Tank (Part-1)
12:01
RCC Design – Lecture 25 | Design of Underground Circular Water Tank
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RCC Design – Lecture 25 | Design of Underground Circular Water Tank
12:52
RCC Design – Lecture 24 | Limit State Method | Design of Combined Footing
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RCC Design – Lecture 24 | Limit State Method | Design of Combined Footing
14:38
RCC Design – Lecture 23 | Limit State Method | Design of Eccentrically Loaded Isolated Footing
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RCC Design – Lecture 23 | Limit State Method | Design of Eccentrically Loaded Isolated Footing
27:04
RCC Design – Lecture 22 | Limit State Method | Design of Axially Loaded Isolated Footing
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RCC Design – Lecture 22 | Limit State Method | Design of Axially Loaded Isolated Footing
15:21
Engineering Mechanics | Lecture 26 | Applications of Friction | Wedge
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Engineering Mechanics | Lecture 26 | Applications of Friction | Wedge
26:47
Engineering Mechanics | Lecture 25 | Applications of Friction | Ladder
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Engineering Mechanics | Lecture 25 | Applications of Friction | Ladder
21:09
Engineering Mechanics | Lecture 24 | Applications of Friction | Block (Part-2)
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Engineering Mechanics | Lecture 24 | Applications of Friction | Block (Part-2)
17:06
Engineering Mechanics | Lecture 23 | Applications of Friction | Block (Part-1)
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Engineering Mechanics | Lecture 23 | Applications of Friction | Block (Part-1)
17:45
Engineering Mechanics | Lecture 22 | Friction Concepts & Principles
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Engineering Mechanics | Lecture 22 | Friction Concepts & Principles
12:28
Engineering Mechanics | Lecture 21 | Moment of Inertia | Applications
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Engineering Mechanics | Lecture 21 | Moment of Inertia | Applications
25:32
FreeCAD for Engineering Drafting | Video 12 | Development of lateral surface of truncated cylinder
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FreeCAD for Engineering Drafting | Video 12 | Development of lateral surface of truncated cylinder
27:12
FreeCAD for Engineering Drafting | Video 11A | How to Hatch a Closed Surface
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FreeCAD for Engineering Drafting | Video 11A | How to Hatch a Closed Surface
2:36
FreeCAD for Engineering Drafting | Video 11 | Drafting the Section of Solids (Hexagonal Pyramid)
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FreeCAD for Engineering Drafting | Video 11 | Drafting the Section of Solids (Hexagonal Pyramid)
34:28
Engineering Mechanics | Lecture 20 | Moment of Inertia | Principles
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Engineering Mechanics | Lecture 20 | Moment of Inertia | Principles
17:44
Engineering Mechanics | Lecture 19 | Pappus-Guldinus Theorem | Applications
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Engineering Mechanics | Lecture 19 | Pappus-Guldinus Theorem | Applications
21:01
FreeCAD for Engineering Drafting | Video 10 | Drafting the Projection of a Cone
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FreeCAD for Engineering Drafting | Video 10 | Drafting the Projection of a Cone
21:47
RCC Design – Lecture 21 | Limit State Method | Design of Slender Columns
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RCC Design – Lecture 21 | Limit State Method | Design of Slender Columns
27:08
FreeCAD for Engineering Drafting | Video 09 | Drafting the Projection of a Pentagonal Prism
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FreeCAD for Engineering Drafting | Video 09 | Drafting the Projection of a Pentagonal Prism
26:49
Engineering Mechanics | Lecture 18 | Centroid of Volume Sections
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Engineering Mechanics | Lecture 18 | Centroid of Volume Sections
20:06
RCC Design – Lecture 20 | Limit State Method | Design of Short Columns under Biaxial Bending
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RCC Design – Lecture 20 | Limit State Method | Design of Short Columns under Biaxial Bending
18:02
RCC Design – Lecture 19 | Limit State Method | Design of Short Columns under Uniaxial Bending
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RCC Design – Lecture 19 | Limit State Method | Design of Short Columns under Uniaxial Bending
13:28
Engineering Mechanics | Lecture 17 | Centroid of Plane Sections (Part-3) | Integration Approach
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Engineering Mechanics | Lecture 17 | Centroid of Plane Sections (Part-3) | Integration Approach
17:06
Engineering Mechanics | Lecture 16 | Centroid of Plane Sections (Part-2)
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Engineering Mechanics | Lecture 16 | Centroid of Plane Sections (Part-2)
25:20
Engineering Mechanics | Lecture 15 | Centroid of Plane Sections (Part-1)
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Engineering Mechanics | Lecture 15 | Centroid of Plane Sections (Part-1)
26:12
FreeCAD for Engineering Drafting | Video 08 | Drafting an Involute of a Pentagon
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FreeCAD for Engineering Drafting | Video 08 | Drafting an Involute of a Pentagon
12:42
Structural Mechanics | Lecture 04 | Analysis of Columns | Applications of Euler's Theory
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Structural Mechanics | Lecture 04 | Analysis of Columns | Applications of Euler's Theory
22:41
Structural Mechanics | Lecture 03 | Analysis of Columns | Euler's Theory
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Structural Mechanics | Lecture 03 | Analysis of Columns | Euler's Theory
36:51
Structural Mechanics | Lecture 02 | Analysis of Trusses | Method of Sections
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Structural Mechanics | Lecture 02 | Analysis of Trusses | Method of Sections
25:44
Structural Mechanics | Lecture 01 | Analysis of Trusses | Method of Joints
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Structural Mechanics | Lecture 01 | Analysis of Trusses | Method of Joints
26:22
RCC Design – Lecture 18 | Limit State Method | Design of Short Axially Loaded Columns
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RCC Design – Lecture 18 | Limit State Method | Design of Short Axially Loaded Columns
27:09
RCC Design – Lecture 17 | Limit State Method | Design Shear & Torsion
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RCC Design – Lecture 17 | Limit State Method | Design Shear & Torsion
20:08
RCC Design – Lecture 16 | Limit State Method | Design of Continuous Beam
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RCC Design – Lecture 16 | Limit State Method | Design of Continuous Beam
16:44
RCC Design – Lecture 15 | Limit State Method | Design of Flanged Beam
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RCC Design – Lecture 15 | Limit State Method | Design of Flanged Beam
17:27
Engineering Mechanics | Lecture 14 | Centroid of Line Elements
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Engineering Mechanics | Lecture 14 | Centroid of Line Elements
30:44
Engineering Mechanics | Lecture 13 | Non concurrent forces in plane | Moment & Force Applications
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Engineering Mechanics | Lecture 13 | Non concurrent forces in plane | Moment & Force Applications
15:54
FreeCAD for Engineering Drafting | Video 07 | Drafting a Parabola using Parallelogram Method
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FreeCAD for Engineering Drafting | Video 07 | Drafting a Parabola using Parallelogram Method
19:12
RCC Design – Lecture 14 | Limit State Method | Design of Stairs
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RCC Design – Lecture 14 | Limit State Method | Design of Stairs
18:31
FreeCAD for Engineering Drafting | Video 06 | Drafting an Ellipse using Rectangle Method
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FreeCAD for Engineering Drafting | Video 06 | Drafting an Ellipse using Rectangle Method
14:19
RCC Design – Lecture 13 | Limit State Method | Design of Two-Way Slab
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RCC Design – Lecture 13 | Limit State Method | Design of Two-Way Slab
18:26
FreeCAD for Engineering Drafting | Video 05 | Drafting an Ellipse using Concentric Circle Method
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FreeCAD for Engineering Drafting | Video 05 | Drafting an Ellipse using Concentric Circle Method
15:09
RCC Design – Lecture 12 | Limit State Method | Design of One-Way Slab
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RCC Design – Lecture 12 | Limit State Method | Design of One-Way Slab
17:50
Engineering Mechanics | Lecture 12 | Non concurrent forces in space | Wrench Applications
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Engineering Mechanics | Lecture 12 | Non concurrent forces in space | Wrench Applications
20:41
Engineering Mechanics | Lecture 11 | Non concurrent forces in space Applications (Part 2)
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Engineering Mechanics | Lecture 11 | Non concurrent forces in space Applications (Part 2)
19:42
FreeCAD for Engineering Drafting | Video 04 | Drafting a Gear Teeth Pattern
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FreeCAD for Engineering Drafting | Video 04 | Drafting a Gear Teeth Pattern
26:54
FreeCAD for Engineering Drafting | Video - 03 | Drafting a Shaft Support System
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FreeCAD for Engineering Drafting | Video - 03 | Drafting a Shaft Support System
16:54
RCC Design – Lecture 11 | Limit State Method | Design of Doubly Reinforced Beam
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RCC Design – Lecture 11 | Limit State Method | Design of Doubly Reinforced Beam
25:11
Engineering Mechanics | Lecture 10 | Non concurrent forces in space Applications (Part 1)
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Engineering Mechanics | Lecture 10 | Non concurrent forces in space Applications (Part 1)
24:18
FreeCAD for Engineering Drafting | Video - 02 | Drafting a Dimensioned Mechanical Component
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FreeCAD for Engineering Drafting | Video - 02 | Drafting a Dimensioned Mechanical Component
21:05
RCC Design – Lecture 10 | Limit State Method | Design of Singly Reinforced Beam
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RCC Design – Lecture 10 | Limit State Method | Design of Singly Reinforced Beam
20:05
RCC Design – Lecture 09 | Limit State Method | Analysis of Rectangular Sections
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RCC Design – Lecture 09 | Limit State Method | Analysis of Rectangular Sections
9:45
RCC Design – Lecture 08 | Limit State Method in RCC | Concepts & Assumptions
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RCC Design – Lecture 08 | Limit State Method in RCC | Concepts & Assumptions
17:43
Engineering Mechanics | Lecture 09 | Concurrent Forces in Space Applications
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Engineering Mechanics | Lecture 09 | Concurrent Forces in Space Applications
40:29
FreeCAD for Engineering Drafting | Video 01 | Tutorial for Beginners
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FreeCAD for Engineering Drafting | Video 01 | Tutorial for Beginners
42:05
Engineering Mechanics | Lecture 08 | Concurrent Forces in Space: Principles
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Engineering Mechanics | Lecture 08 | Concurrent Forces in Space: Principles
22:06
Engineering Mechanics | Lecture 07 | Non concurrent Forces in Plane-Couples
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Engineering Mechanics | Lecture 07 | Non concurrent Forces in Plane-Couples
15:34
Engineering Mechanics | Lecture 06 | Non concurrent Forces in Plane - Varignon's Theorem
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Engineering Mechanics | Lecture 06 | Non concurrent Forces in Plane - Varignon's Theorem
23:36
Engineering Mechanics | Lecture 05 | Non concurrent Forces in Plane Part 1
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Engineering Mechanics | Lecture 05 | Non concurrent Forces in Plane Part 1
17:15
Engineering Mechanics | Lecture 04 | Concurrent Forces in Plane Applications Part 2
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Engineering Mechanics | Lecture 04 | Concurrent Forces in Plane Applications Part 2
21:07
Engineering Mechanics | Lecture 03 | Concurrent Forces in Plane Applications Part 1
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Engineering Mechanics | Lecture 03 | Concurrent Forces in Plane Applications Part 1
25:25
Engineering Mechanics | Lecture 02 | Fundamental Principles – Applications
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Engineering Mechanics | Lecture 02 | Fundamental Principles – Applications
25:14
Engineering Mechanics | Lecture 01 | Fundamental Principles
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Engineering Mechanics | Lecture 01 | Fundamental Principles
22:54
RCC Design – Lecture 07 | Working Stress Method in RCC | Design of Doubly Reinforced Beam
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RCC Design – Lecture 07 | Working Stress Method in RCC | Design of Doubly Reinforced Beam
14:54
RCC Design – Lecture 06 | Working Stress Method in RCC | Design of Singly Reinforced Beam
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RCC Design – Lecture 06 | Working Stress Method in RCC | Design of Singly Reinforced Beam
14:24
RCC Design – Lecture 05 | Working Stress Method in RCC | Analysis of Sections
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RCC Design – Lecture 05 | Working Stress Method in RCC | Analysis of Sections
20:17
RCC Design – Lecture 04 | Working Stress Method in RCC | Concepts & Assumptions
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RCC Design – Lecture 04 | Working Stress Method in RCC | Concepts & Assumptions
20:12
RCC Design – Lecture 03 | Types of RCC Sections | Balanced, Under & Over Reinforced
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RCC Design – Lecture 03 | Types of RCC Sections | Balanced, Under & Over Reinforced
10:14
RCC Design – Lecture 02 | Methods of RCC Design | WSM, ULM & LSM
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RCC Design – Lecture 02 | Methods of RCC Design | WSM, ULM & LSM
11:26
RCC Design – Lecture 01 | Loads on Structures | IS 456 & IS 875 Explained
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RCC Design – Lecture 01 | Loads on Structures | IS 456 & IS 875 Explained
11:40