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Civil Engineering Preparation
By NEATmet Learning Hub
Categories: Engineering and Technology
About Course
This Refresher Course helps aspiring candidates to recapitulate and improve their fundamental knowledge on various subjects pertaining to Civil Engineering.
It covers the relevant topics under the academic curriculum for Graduate and Diploma level Engineering, where video lectures from world class institutions e.g. IITs, IISc etc. have been facilitated for dissemination of knowledge.
What Will You Learn?
- Construction Engineering
- Water Resource Engineering
- Environmental Engineering
- Transportation Engineering
Course Content
Construction Engineering
-
Sub-Surface Investigation
24:01 -
Sub-Surface Investigation Methods
16:31 -
Sub-Surface Investigation Methods & Shallow Foundation
15:09 -
Shallow Foundation
19:20 -
Introduction to Pile Foundation
16:18 -
Pile Foundation & Pile Accessories
20:08 -
Classification of Piles, Failure of Piles
19:47 -
Box Caisson,Well Foundation,Pneumatic Caisson
21:30 -
Caisson Sickness, Floating & Sinking of Caisson
18:58 -
Masonry Cosntruction-Introduction, Technical Terms
18:55 -
Stone Masonry
13:59 -
Brick Masonry
24:53 -
Composite Masonry
14:48 -
Hollow Concrete Block & Cavity Walls
18:19 -
Lintels and Arches-01
18:05 -
Lintels & Arches-02
22:23 -
Wall Finishes – Plastering
24:08 -
Wall Finishes – Pointing, Painting
18:13 -
PCC and RCC Construction
16:14 -
Manufacture of Concrete-01
12:39 -
Manufacture of Concrete-02
17:17 -
Concrete 3D Printing
15:47 -
Introduction to Formwork
20:25 -
Formwork for RCC Wall & RCC Floor
13:23 -
Formwork for RCC Column,Centering Work
23:15 -
Building Components & Components of a Door|Building Construction Technology
18:16 -
Types of Doors-01
18:01 -
Types of Doors-02
16:55 -
Building Component – Windows
21:23 -
Types of Windows
20:59 -
Building Component – Stairs
22:49 -
Types of Staircase-01
16:34 -
Types of Staircase-02
13:18 -
Building Components – Flooring
21:12 -
Types of Flooring – 01
17:49 -
Types of Flooring-02
17:43 -
Upper Floors-01
22:35 -
Upper Floors (Part-2) & Introduction to Roof
19:27 -
Components of a Roof
19:15 -
Classification of Sloped Roofs
13:09 -
King Post Truss and Queen Post Truss
15:09 -
Roof Coverings, Flat Roofs
25:13 -
Temporary Works in Construction
27:00 -
Control of Groundwater in Excavation
25:32 -
Cofferdams, Diaphragm Walls,Demolition
37:43 -
Fire Resistance,Thermal Insulation,Sound Insulation
24:22 -
Anti-Termite Treatment,Green Buildings
18:52
Construction Engineering | Engineering Mechanics
-
Introduction to Engineering Mechanics I
36:10 -
Introduction to Engineering Mechanics II
48:18 -
Force Systems I
48:45 -
Force Systems II
46:36 -
Equilibrium of Rigid bodies I
52:10 -
Equilibrium of Rigid bodies II
47:14 -
Trusses I
43:33 -
Trusses II
47:26 -
Trusses III
54:15 -
Beams I
48:57 -
Beams II
48:47 -
Beams III
52:07 -
Beams IV
49:10 -
Virtual Work I
41:14 -
Virtual Work II
51:04 -
Energy Relations
50:55 -
Review Before Quiz I
51:23 -
Friction I
38:11 -
Friction II
56:13 -
Friction III
43:59 -
Particle Dynamics
52:03 -
Circular Motion
53:03 -
Absolute Motion
40:02 -
Relative Motion I
47:19 -
Relative Motion II
46:42 -
Relative Motion III and Instantaneous Center
49:37 -
Rotating frame of reference I Velocity
52:00 -
Rotating frame of reference II Acceleration
48:16 -
Rotating frame of reference III Choice of rotating frame of reference
42:48 -
RFR IV Crank and slotted bar
50:18 -
RFR V Understanding Coriolis Acceleration
45:09 -
Kinetics I
47:33 -
Kinetics II
47:40 -
Kinetics III
36:57 -
3D Kinematics I
49:15 -
3D Kinematics II
50:16 -
3D Kinematics III
42:07
Construction Engineering | Solid Mechanics
-
Mathematical Concepts: Working with Vectors & Tensors
01:00:32 -
Traction Vector
50:11 -
Stress Tensor & its Matrix Representation
45:01 -
Transformation of Stress Matrix
38:39 -
Stress Equilibrium Equations : Balance of Linear & Angular Momentum
01:03:33 -
Balance of Angular Momentum (contd.)
51:07 -
Principal Planes & Principal stress components
40:19 -
Maximizing the Shear Component of Traction
38:01 -
Mohr’s Circle
55:40 -
Mohr’s Circle (contd.), Stress Invariants, Decomposition of the Stress Tensor
01:16:04 -
Concept of Strain Tensor
59:50 -
Longitudinal and Shear Strains
43:37 -
Local Volumetric Strain & Local Infinitesimal Rotation
01:05:54 -
Similarity in Properties of Stress & Strain Tensors
58:55 -
Stress-Strain Relation
59:47 -
Stress-Strain Relation for Isotropic Materials
56:11 -
Linear Momentum Balance in Cylinderical Coordinate System
55:41 -
Linear Momentum Balance in Cylinderical Coordinate System (Contd..)
55:57 -
Strain Matrix Cylinderical Coordinate System
36:03 -
Extension-Torsion-Inflation in a Hollow Cylinder
57:37 -
Extension-Torsion-Inflation in a Hollow Cylinder (Contd..)
56:19 -
Solving Problems Involving Torsion of Shafts
48:20 -
Pure Bending of Rectangular Beams
01:03:05 -
Bending of Beams (Contd..)
01:03:22 -
Bending of Unsymmetrical Beams
01:12:30 -
Concept of Shear Center
01:03:13 -
Theoy of Beams
01:05:10 -
Theoy of Beams (Contd.) & Beam Buckling
56:30 -
Energy Methods
01:04:47 -
Energy Methods (contd.)
01:22:42 -
Theories of Failure
45:52 -
Theories of Failure (Contd.)
34:47
Construction Engineering | Structural Analysis
-
Statically Indeterminate Explanation – Structural Analysis
10:55 -
Is it statically indeterminate? Examples – Structural Analysis
08:16 -
Calculating reactions for beam with hinge – statics/mechanics example
09:55 -
Calculating Reactions for Angled Beam – Statics/Structural Analysis
07:56 -
Calculating Reactions of a Frame – Structural Analysis
19:22 -
Assumptions and Determinacy for Truss Analysis – Statics and Structural Analysis
07:45 -
Method of Joints (Part 1) – Statics and Structural Analysis
10:35 -
Method of Joints (Part 2) – Statics and Structural Analysis
07:01 -
Method of Sections for Truss Analysis Example – Statics and Structural Analysis
17:01 -
Method of Sections for truss analysis Example 2 – Statics / Structural Analysis
16:45 -
Method of Sections for Truss Analysis Example 3 – Statics and Structural Analysis
13:27 -
Explaining Shear and Moment Diagrams Graphically – Structural Analysis
25:10 -
Drawing Shear and Moment Diagrams for Beam
14:03 -
Drawing Shear and Moment Diagrams for Overhang Beam
14:34 -
Drawing Shear and Moment Diagrams Example- Mechanics of Materials and Statics
17:36 -
Shear and Moment Diagram Example 2 – Mechanics of Materials and Statics
14:34 -
Shear and Moment Diagram Example 3 – Mechanics of Materials
16:27 -
Discussion on Frame Analysis – Structural Analysis
07:40 -
Frame Analysis Example 1 – intro and reactions (1/3) – Structural Analysis
07:03 -
Frame Analysis Example 1 – axial, shear, moment diagrams (2/3) – Structural Analysis
11:14 -
Frame Analysis Example 1 – local coordinate selection (3/3) – Structural Analysis
02:49 -
Frame Analysis Example – Shear and Moment Diagram (Part 1) – Structural Analysis
18:09 -
Frame Analysis Example – Shear and Moment Diagram (Part 2) – Structural Analysis
16:40 -
Shear and Moment Diagrams of a Frame with Angled Member (Part 1) – Structural Analysis
23:07 -
Shear and Moment Diagrams of a Frame with an Angled Member (Part 2) – Structural Analysis
15:16 -
Influence Lines – Structural Analysis
10:37 -
Influence Lines for Truss Example (Part 1) – Structural Analysis
09:36 -
Influence Lines for Truss Example (Part 2) – Structural Analysis
06:17 -
Influence Lines with Muller-Breslau Principle (part 1) – Structural Analysis
08:48 -
Influence Lines with Muller-Breslau Principle (part 2) – Structural Analysis
15:09 -
Influence Lines for Beams Example 1 (Part 1/2) – Structural Analysis
06:03 -
Influence Lines for Beams Example 1 (Part 2/2) – Structural Analysis
06:58 -
Influence Lines for Beams Example 2 (Part 1/3 – IL for vertical reaction) – Structural Analysis
03:46 -
Influence Lines for Beams Example 2 (Part 2/3 – IL for internal shear) – Structural Analysis
03:35 -
Influence Lines for Beams Example 2 (Part 3/3 – IL for internal moment) – Structural Analysis
04:41 -
Influence Lines for Beams Example 3 (Part 1/3 – IL for vertical reaction) – Structural Analysis
03:33 -
Influence Lines for Beams Example 3 (Part 2/3 – IL for internal shear) – Structural Analysis
03:38 -
Influence Lines for Beams Example 3 (Part 3/3 – IL for internal moment) – Structural Analysis
04:03 -
Absolute Maximum Moment Example – Structural Analysis
20:36 -
Beam Deflections – Double Integration Method Example (Part 1/3) – Structural Analysis
14:42 -
Beam Deflections – Double Integration Method Example (Part 2/3) – Structural Analysis
08:01 -
Double Integration Method Example 2 (1/2) – Mechanics of Materials
08:11 -
Double Integration Method Example 2 (2/2) – Mechanics of Materials
10:03 -
Beam Deflections – Double Integration Method Example (Part 3/3) – Structural Analysis
05:53 -
Beam Deflections – Intro to Conjugate Beam Method – Structural Analysis
08:49 -
Beam Deflections – Drawing Conjugate Beams – Structural Analysis
07:01 -
Beam Deflections – Conjugate Beam Method Example 1- Structural Analysis
13:24 -
Moment Area Theorems Explained – Structural Analysis
08:41 -
Moment Area Method Example 1 – Structural Analysis
07:03 -
Moment Area Method Example 2 – Structural Analysis
12:28 -
Moment Area Method Example 3 – Structural Analysis
09:13 -
Moment Area Method Example 4 (Part 1/2) – Structural Analysis
09:07 -
Moment Area Method Example 4 (Part 2/2) – Structural Analysis
06:54 -
Method of Virtual Work – Structural Analysis
10:36 -
Method of Virtual Work – Truss Deflections – Structural Analysis
06:00 -
Method of Virtual Work – Truss Example (Part 1/2) – Structural Analysis
08:36 -
Method of Virtual Work – Truss Example (Part 2/2) – Structural Analysis
04:01 -
Method of Virtual Work for Beams – Structural Analysis
06:26 -
Unit Load Method (Virtual Work) for Beam Slope or Rotation
25:13 -
Method of Virtual Work for Beams Example 1 (Part 1/2) – Structural Analysis
16:45 -
Method of Virtual Work for Beams Example 1 (Part 2/2) – Structural Analysis
08:58 -
Method of Virtual Work for Beams Example 2 (Part 1/2) – Structural Analysis
08:35 -
Method of Virtual Work for Beams Example 2 (Part 2/2) – Structural Analysis
09:06 -
Force Method Introduction Part 1 of 2 – Structural Analysis
15:05 -
Force Method Introduction Part 2 of 2 – Structural Analysis
13:29 -
Force Method Example 1 – Mechanics of Materials
12:41 -
Force Method “ultimate” Example for Beams (1/4) – Structural Analysis
07:26 -
Force Method “ultimate” Example for Beams (2/4) – Structural Analysis
11:57 -
Force Method “ultimate” Example for Beams (3/4) – Structural Analysis
08:25 -
Force Method “ultimate” Example for Beams (4/4) – Structural Analysis
06:14 -
Derivation of Slope Deflection Equations – Structural Analysis
43:12 -
Slope Deflection Method Example (1/3) – Structural Analysis
10:08 -
Slope Deflection Method Example (2/3) – Structural Analysis
10:02 -
Slope Deflection Method Example (3/3) – Structural Analysis
09:08 -
Slope Deflection Method – Sidesway Frame Analysis (1/3) – Structural Analysis
06:43 -
Slope Deflection Method – Sidesway Frame Analysis (2/3) – Structural Analysis
08:44 -
Slope Deflection Method – Sidesway Frame Analysis (3/3) – Structural Analysis
10:50 -
Explaining the Moment Distribution Method – Structural Analysis
06:38 -
TYNTK for the Moment Distribution Method – Structural Analysis
07:41 -
Moment Distribution Method Example 1 (1/2) – Structural Analysis
17:08 -
Moment Distribution Method Example 1 (2/2) – Structural Analysis
08:48 -
Moment Distribution Method Example 2 (1/2) – Structural Analysis
10:54 -
Moment Distribution Method Example 2 (2/2) – Structural Analysis
12:49 -
Moment Distribution Method Example 3 (1/2) – Structural Analysis
07:13 -
Moment Distribution Method Example 3 (2/2) – Structural Analysis
06:43 -
Approximate Analysis of Frame with Gravity Loads Example 1 (1/2) – Structural Analysis
10:11 -
Approximate Analysis of Frame with Gravity Loads Example 1 (2/2) – Structural Analysis
09:09
Construction Engineering | Construction Materials
-
Introduction to Construction Materials – Part 1
26:47 -
Introduction to Construction Materials – Part 2
19:15 -
Introduction to Construction Materials – Part 3
38:39 -
Materials Engineering Concepts – Part 1
24:19 -
Materials Engineering Concepts – Part 2
35:15 -
Materials Engineering Concepts – Part 3
26:41 -
Materials Engineering Concepts – Part 4
27:02 -
Materials Engineering Concepts – Part 5
16:45 -
Materials Engineering Concepts – Part 6
29:07 -
Materials Engineering Concepts – Part 7
19:03 -
Nature of Materials – Part 1
30:09 -
Nature of Materials – Part 2
20:54 -
Nature of Materials – Part 3
20:21 -
Nature of Materials – Part 4
30:34 -
Nature of Materials – Part 5
20:21 -
Nature of Materials – Part 6
46:20 -
Nature of Materials 4 – Part 7
44:36 -
Stone, Brick and Mortar 1 – Part 1
26:51 -
Stone, Brick and Mortar 1 – Part 2
28:17 -
Stone, Brick and Mortar 1 – Part 3
25:52 -
Stone, Brick and Mortar 1 – Part 4
25:29 -
Stone, Brick and Mortar 2 – Part 1
30:04 -
Stone, Brick and Mortar 2 – Part 2
39:48 -
Cement and Concrete 1 – Part 1
29:27 -
Cement and Concrete 1 – Part 2
31:37 -
Cement and Concrete 1 – Part 3
31:47 -
Cement and Concrete 2 – Part 1
32:38 -
Cement and Concrete 2 – Part 2
36:12 -
Cement and Concrete 3 – Part 1
35:30 -
Cement and Concrete 3 – Part 2
39:18 -
Cement and Concrete 4 – Part 1
26:42 -
Cement and Concrete 4 – Part 2
20:49 -
Metals – 1 – Part 1
24:04 -
Metals – 1 – Part 2
22:38 -
Metals – 2 – Part 1
19:09 -
Metals – 2 – Part 2
20:35 -
Metals – 3 – Part 1
25:22 -
Metals – 3 – Part 2
32:23 -
Metals – 4
38:57 -
Metals – 5 – Part 1
22:02 -
Metals – 5 – Part 2
24:35 -
Polymers and Composites – Part 1
29:07 -
Polymers and Composites – Part 2
31:10 -
Polymers and Composites – Part 3
24:08 -
Pavement Materials 1 – Part 1
24:46 -
Pavement Materials 1 – Part 2
18:13 -
Pavement Materials 2 – Part 1
29:05 -
Pavement Materials 2 – Part 2
15:09 -
Wood and wood products – Part 1
34:54 -
Wood and wood products – Part 2
36:10
Construction Engineering | Construction Management
-
Interdisciplinary nature of modern construction projects
22:24 -
Overview of steps in execution of a project
37:33 -
Illustrative examples for evaluation of bids based on different schemes
17:10 -
Resource management in construction projects
25:41 -
Estimating quantities
34:20 -
Description of items
22:49 -
Estimation of project cost
28:28 -
Discussion on the case study of boundary wall
30:56 -
Running account bills
31:22 -
Economics decision making in construction projects
31:08 -
Depreciation of construction equipment
33:39 -
Repayment of a loan
21:31 -
Introduction to planning and scheduling
30:14 -
Introduction to planning and scheduling (continued)
23:07 -
Project scheduling
39:30 -
Uncertainties in duration of activities -Using PERT in scheduling
28:01 -
Project monitoring and control systems
31:52 -
Resource leveling and allocation
29:34 -
Crashing of networks
30:41 -
Introduction to construction safety
46:31 -
Accidents in construction industry – I
26:05 -
Accidents in construction industry – II
23:18 -
Personal Protective Equipment
30:30 -
Implications of construction accidents
18:27 -
Safety organization and safety officer
31:18 -
Quality control in construction
41:46 -
Quality in construction – welding
32:47 -
Epoxy coated bars
27:47 -
Quality control of grouts in ducts of post-tensioned PC members
33:34 -
Quality control (QC) issues in concrete
41:32 -
Legal issues in construction management – An introduction
25:50 -
Essentials of a good contract
30:10 -
Basics of contracting
25:38 -
Dispute resolution in construction projects
30:10 -
Types of construction contracts – Definitions
21:00 -
Recent developments in contracting
28:59 -
Closing the discussion on legal aspects
15:29 -
Quality control – concrete sewer pipeline
34:55 -
Closing remarks
40:18 -
Interactive Excel Project Management Dashboard – FREE Download
40:04
Geotechnical Engineering | Soil Mechanics
-
Introduction
47:51 -
Origin and Definition of Soils
38:36 -
Classification of Soils- I
01:10:30 -
Classification of Soils- II
55:08 -
Classification of Soils- III and Challenging Situations
52:33 -
Soil constituents- I
55:18 -
Soil constituents- II
01:15:33 -
Particulate Nature of the Soils
43:52 -
Soil Aggregate and Phase Relations
01:21:06 -
Classification of Soils and Sieve Analysis
01:13:25 -
Particle Size Analysis of Finegrained Soils
01:09:36 -
Soil-water Interaction- I
01:04:05 -
Soil-water Interaction- II
33:22 -
Compaction Characteristics of Soil- I
46:35 -
Compaction Characteristics of Soil- II
32:04 -
Permeability of Soil and Ground Water Flow- I
01:11:21 -
Permeability of Soil and Ground Water Flow- II
45:50 -
Coefficient of Permeability
58:45 -
Seepage Theory
01:03:02 -
Applications of Seepage Theory
01:09:30 -
Flow Net in the Earthen Dam -I
36:05 -
Flow Net in the Earthen Dam -II
56:24 -
Stresses in the Soil Mass due toExternal Loadings- I
01:14:02 -
Stresses in the Soil Mass due to External Loadings- II
28:48 -
Compression Characteristics of Soils- I
01:04:49 -
Compression Characteristics of Soils- II
54:45 -
Consolidation of soils
52:01 -
Coefficient of consolidation
43:14
Geotechnical Engineering | Foundation Engineering
-
Quick Review of Soil Mechanics
32:12 -
Quick Review of Soil Mechanics (Contd.)
32:51 -
Quick Review of Soil Mechanics (Contd.)
33:58 -
Quick Review of Soil Mechanics (Contd.)
25:19 -
Quick Review of Soil Mechanics (Contd.)
34:00 -
Foundation Engineering Introduction
22:59 -
Foundation Engineering Introduction (Contd.)
32:42 -
Foundation Engineering Introduction (Contd.)
29:37 -
Shallow Foundation and Bearing Capacity
33:07 -
Shallow Foundation and Bearing Capacity (Contd.)
36:01 -
Shallow Foundation and Bearing Capacity (Contd.)
34:19 -
Shallow Foundation
30:43 -
Shallow Foundation (Contd.)
30:12 -
Shallow Foundation (Contd.)
30:58 -
Shallow Foundation (Contd.)
34:15 -
Shallow Foundation (Contd.)
30:56 -
Settlement of Foundation
30:48 -
Settlement of Foundation (Contd.)
28:30 -
Settlement of Foundation (Contd.)
32:34 -
Settlement of Foundation (Contd.)
32:09 -
Settlement of Foundation (Contd.)
28:59 -
Settlement of Foundation (Contd.)
28:06 -
Geotechnical Investigation
32:57 -
Geotechnical Investigation (Contd.)
28:48 -
Geotechnical Investigation (Contd.)
30:45 -
Geotechnical Investigation (Contd.)
32:54 -
Geotechnical Investigation (Contd.)
28:50 -
Earth Pressure Theories
28:59 -
Earth Pressure Theories (Contd.)
29:37 -
Earth Pressure Theories (Contd.)
30:29 -
Earth Pressure Theories (Contd.)
31:38 -
Earth Pressure Theories (Contd.)
32:10 -
Stability analysis of earth retaining wall
29:57 -
Stability analysis of earth retaining wall (Contd.)
30:37 -
Stability analysis of earth retaining wall (Contd.)
29:27 -
Stability of earth retaining wall
27:13 -
Pile foundation
27:07 -
Pile foundation (Contd.)
27:31 -
Pile foundation (Contd.)
34:31 -
Pile foundation (Contd.)
31:13 -
Pile foundation (Contd.)
27:14 -
Pile foundation (Contd.)
29:17 -
Pile foundation (Contd.)
27:14 -
Pile foundation (Contd.)
27:35 -
Pile foundation (Contd.)
28:20 -
Pile foundation (Contd.)
28:10 -
Sheet pile wall
30:42 -
Sheet pile wall (Contd.)
27:38 -
Anchor bulkhead
29:56 -
Anchor bulkhead (Contd.)
30:53 -
Deep excavation
30:44 -
Deep excavation (Contd.)
24:12 -
Introduction to machine foundation
32:16 -
Introduction to machine foundation (Contd.)
29:17 -
Introduction to machine foundation (Contd.)
29:36 -
Introduction to machine foundation (Contd.)
27:15 -
Introduction to machine foundation (Contd.)
27:55 -
Introduction to machine foundation (Contd.)
23:33 -
Introduction to machine foundation (Contd.)
31:39 -
Summary
31:40
Water Resources Engineering | Fluid Mechanics
-
Basic Concepts of Fluid
01:07:55 -
Properties of Fluid
01:12:41 -
Fluid Flow Analysis
01:05:39 -
Concepts of Hydrostatic
01:00:06 -
Measurement of Pressure and Hydrostatic forces
47:48 -
Buoyancy, Metacentre, Stability and Rigid body motion
01:03:33 -
Reynolds Transport Theorem
01:08:56 -
Conservation of Mass
01:02:57 -
Conservation of Momentum
59:05 -
Conservation of Momentum Applications
01:01:02 -
Bernoulli’s Equation
55:10 -
Applications of Bernoulli’s Equation
58:05 -
Fluid Statics Applications: Example Problems
49:46 -
Conservation of Momentum: Example problems
47:29 -
Bernoulli’s Equation : Problems Solving on Black Board
53:19 -
Lagrangian and Eulerian Descriptions
59:48 -
Motion and deformation of fluid elements
46:33 -
Problems Solving on Black Board
57:52 -
Dimensional Homogeneity
46:37 -
Dimensional Analysis and Similarity
45:01 -
Laminar and Turbulent Flows
56:32 -
Losses in Pipe Fittings
57:39 -
Flow in Noncircular Conduits and Multiple Path Pipeflow
55:28 -
Mass Conservation Equation- I
30:45 -
Mass Conservation Equation- II
54:26 -
Stream Function
01:04:00 -
Cauchy’s Equation
55:06 -
The Navier-Stokes Equation
01:02:04 -
The Navier-Stokes Equation part 2
01:01:20 -
The Navier-Stokes Equation 3
56:23 -
Approximate solutions of Navier Stokes Equation: Bounary Layer Approximation
01:09:59 -
Boundary Layer Approximation II
01:00:19 -
Boundary Layer Approximation III
50:35 -
Open Channel Flow
56:30 -
Open Channel Flow II
45:07 -
Open Channel Flow III
56:35 -
Drag and Lift
49:24
Water Resources Engineering | Hydraulics
-
Introduction to Hydraulics
59:07 -
Open Channel Hydraulic Part-1
01:01:53 -
Open Channel Hydraulics Part -2
01:01:46 -
Velocity and Pressure Distribution
01:03:42 -
Practical use of velocity co-efficient in channel flow
01:06:39 -
Conservation Principles & ioioGoverning Equations
01:07:37 -
Uniform Flow
58:59 -
Uniform Flow Formula
01:01:07 -
Computation of Uniform Flow Part-1
01:00:49 -
Computation of Uniform Flow Part-2
01:04:17 -
Uniform Flow in Mobile Boundary Channel
01:00:48 -
Incipient Motion Condition and Regime of Flow
01:04:09 -
Concept of Specific Energy
01:01:38 -
Computation of Critical Depth
01:05:29 -
Specific Force, Critical Depth & Sequent Depth
01:09:57 -
Non-uniform Flow: Gradually Varied Flow
01:06:14 -
Classification of Gradually Varied Flow
01:08:11 -
Characteristic of Gradually Varied Flow
01:03:19 -
Characteristic of gradually varied flow and its computation
01:05:43 -
Gradually Varied Flow & its Computation
01:04:02 -
Computation of Gradually Varied Flow
01:02:46 -
Gradually Varied Flow: Numerical Methods and Problem Solving
01:04:51 -
Rapidly Varied Flow: Hydraulic Jump
01:02:34 -
Hydraulic Jump
01:00:03 -
Flow Over Hump and Channel Contraction
01:04:23 -
Canal Design-1
01:02:28 -
Canal Design-2
01:01:35 -
Design of Alluvial Channel
01:00:53 -
Design of Alluvial Channel-2
01:02:41 -
Design of Alluvial Channel-3
01:01:50 -
Unsteady Flow: Waves and its Classification
01:00:33 -
Unsteady Flow Part – 2
01:02:25 -
Unsteady Flow Part-3
01:01:52 -
Pipe Flow: Friction Loss
01:11:49 -
Pipe Flow: Losses in Pipes
01:04:54 -
Pipe in Series & Parallel
01:04:44 -
Pipe Network Analysis
01:06:56 -
Water Hammer & Surge Tank
01:03:12 -
Pipe Flow: Friction Loss
01:02:36 -
Pipe Flow: Losses in Pipe
01:09:25
Water Resources Engineering | Hydrology
-
Introduction
20:23 -
Hydrologic Cycle
31:37 -
Precipitation and its measurement
20:30 -
Precipitation and its measurement
18:49 -
Abstractions
39:14 -
Abstractions
19:09 -
Abstractions
43:47 -
Streamflow Measurement
24:58 -
Streamflow Measurement (Contd.)
30:36 -
Streamflow Measurement (Contd.)
20:56 -
Runoff
25:35 -
Hydrographs
26:13 -
Hydrographs, Baseflow Separation
18:49 -
Unit Hydrograph
30:05 -
Unit Hydrograph
24:04 -
Unit Hydrograph
30:19 -
Floods
22:43 -
Floods, Flood Frequency Analysis
35:09 -
Floods (Contd.)
19:02 -
Flood Control
13:12 -
Flood Control, River Training Works
20:25 -
Flood Routing
35:16 -
Flood Routing
25:26 -
Dock & Harbours
09:13 -
Dock & Harbours
15:03 -
Dock & Harbours
09:59 -
Dock & Harbours
10:45
Environmental Engineering
-
Introduction
15:22 -
Water Demand
44:56 -
Forecasting of Population (Part – 1)
34:34 -
Forecasting of Population (Part – 2)
33:46 -
Sources of Water
23:31 -
Quality of Water | Physical Parameters
54:11 -
Quality of Water | Chemical Parameters
01:19:49 -
Biological Parameters of Water
29:38 -
Treatment of Water | Screening | Aeration
30:09 -
Treatment of Water Plain – Sedimentation
33:26 -
Numerical Problems on Plain Sedimentation
27:52 -
Treatment of Water – Sedimentation with Coagulation
28:18 -
Treatment of Water – Coagulation with Alum
41:37 -
Clariflocculator
32:11 -
Treatment of Water – Filtration
23:31 -
Slow Sand Gravity Filter
19:36 -
Rapid Sand Gravity Filter
27:17 -
Operational Troubles in Filters
29:34 -
Pressure Filter
52:00 -
Types of Disinfectants
51:54 -
Chlorination
30:17 -
Water Softening
01:02:25 -
Quick Revision
03:49:11
Environmental Engineering | Water and Waste Water Treatment
-
Importance of water and wastewater treatment
27:24 -
Life expectancy and real world scenario.
25:43 -
Course outline.
29:43 -
Review of fundamentals.
35:18 -
Mass balance
30:00 -
Mass Balance: Batch reactor, CSTR, and Plug flow reactors
34:53 -
Mass balance: Comparison of CSTR and Plug flow reactor (Contd.)
29:29 -
Mass Balance: Non ideal system and Water quality parameters
46:53 -
Water quality: DO and ways to measure it
40:08 -
Water quality: Nutrients in water
36:37 -
Water quality: Total suspended solids and Pathogens
31:10 -
Wastewater treatment plant: basic principals
36:58 -
Wastewater treatment plant: Preliminary treatment
57:32 -
Wastewater treatment plant: Sedimentation and basics
39:35 -
Sedimentation: Discrete and Flocculant settling
23:33 -
Design of primary settling tank
37:06 -
Biological treatment: BOD and Nutrient removal
54:17 -
Analysis of biological removal process(ASP)
39:26 -
Activated sludge process: Material balance for aeration basin
23:16 -
Oxygen transfer: types and basic principles
30:29 -
Relevance of F/M ratio & Design Parameters of Activated Sludge Process
26:10 -
Sludge Bulking & Activated Sludge Variations
24:03 -
Sequencing Batch Reactor
26:57 -
Nitrogen Removal- I
32:59 -
Nitrogen Removal- II & Phosphorus Removal- I
34:52 -
Phosphorus Removal – II
42:21 -
Secondary Clarifiers & Attached Growth System
27:44 -
Disinfection
37:47 -
Chlorination Disinfection
34:18 -
Disinfection By-products (DBPs) & Disinfectant Removal
46:21 -
Water demand
34:32 -
Water Quality Parameters
38:14 -
Overview of Water Treatment
31:43 -
Physico-Chemical treatment
33:54 -
Coagulation-I
30:48 -
Coagulation-II
39:16 -
Rapid Mixing
28:48 -
Flocculation-I
28:16 -
Flocculation-II
24:55 -
Flocculent settling
30:18 -
Filtration
31:33 -
Depth Filtration
33:52 -
Design of Sand Filter and Surface Filtration
43:52 -
Disinfection
31:38 -
Hardness-I
29:44 -
Hardness-II
34:49 -
Lime soda softening-I
30:47 -
Lime-Soda softening-II
36:18 -
Recarbonation
35:16 -
Type of Softening Basins and Adsorption
27:10 -
Adsorption
29:29 -
Adsorption Isotherms
37:24 -
Ion Exchange
43:31 -
Nanofiltration and RO
34:29 -
Aeration: Removal of Fe and Mn
30:01 -
Residual Management
28:46 -
Sludge Thickening
35:45 -
Stabilization of Sludge
20:56 -
Anaerobic and Aerobic digestion of sludge
39:33 -
Conditioning, Dewatering and Disposal of Sludge
29:16
Transportation Engineering
-
Introduction
58:01 -
Elements of Concern and Components
57:57 -
Traffic Stream Characteristics
59:23 -
Traffic Studies : Part – I
57:58 -
Traffic Studies : Part – II
57:17 -
Highway Capacity and Level of Service
56:35 -
Intersection Control and Signalization
57:17 -
Functional Classification,Design Elements
56:45 -
Cross Section Elements
55:58 -
Stopping Sight Distance And Decision Sight
58:50 -
Overtaking,Intermidiate and Headlight Sight
52:53 -
Intersection Sight Distance – I
01:00:52 -
Intersection Sight Distance – II
56:45 -
Horizontal Alignment – I
57:03 -
Horizontal Alignment – II
58:47 -
Horizontal Alignment – III
55:31 -
Horizontal Alignment – IV
59:16 -
Horizontal Alignment Part – V
59:04 -
Horizontal Alignment Part – VI
57:36 -
Vertical Alignment Part – I
58:29 -
Vertical Alignment Part – II
59:05 -
Vertical Alignment Part – III
57:56 -
Highway Alignment
57:44 -
Principles of Pavement Design
59:15 -
Traffic Loading – I
58:13 -
Traffic Loading – II
58:53 -
Pavement Materials – I
56:50 -
Pavement Materials – II
57:31 -
Pavement Materials – III
55:58 -
Pavement Materials – IV
57:09 -
Pavement Materials – V
56:52 -
Design of Bituminous Mixes – I
59:31 -
Design of Bituminous Mixes – II
57:45 -
Analysis of Flexible Pavements
57:45 -
Analysis of Concrete Pavements
59:33 -
Flexible Pavement Design Indian Roads Congress
58:48 -
Flexible Pavement Design AASHTO Method – 1993
58:48 -
Concrete Pavement Design Indian Congress Method
59:06 -
LessonConcrete Pavement Design PCA and AASHTO Methods
59:12 -
Pavement Evaluation and Rehabilitation
58:37 -
Overlay Design – IRC Method
58:55
Geomatics Engineering
-
Introduction to Geoinformatics
01:00:53 -
Basic Concepts of Surveying
01:00:38 -
Basic Concepts of Surveying (Contd.)
58:19 -
Basic Concepts of Surveying (Contd.)
55:45 -
Basic Concepts of Surveying (Contd.)
58:52 -
Basic Concepts of Surveying (Contd.)
57:43 -
Linear Measurements
01:00:30 -
Linear Measurements (Contd.)
58:48 -
Linear Measurements (Contd.)
01:04:38 -
Linear Measurements (Contd.)
58:20 -
Compass Surveying
01:00:00 -
Compass Surveying (Contd.)
01:00:00 -
Theodolites/Total Stations
59:59 -
Theodolites/Total Stations (Contd.)
01:00:50 -
Theodolites/Total Stations (Contd.)
57:52 -
Theodolites/Total Stations (Contd.)
57:31 -
Theodolites/Total Stations (Contd.)
59:09 -
Theodolites/Total Stations (Contd.)
56:08 -
Triangulation and Trilateration
01:00:10 -
Triangulation and Trilateration (Contd.)
59:28 -
Triangulation and Trilateration (Contd.)
54:12 -
Leveling and Contouring
59:52 -
Leveling and Contouring (Contd.)
59:15 -
Leveling and Contouring (Contd.)
54:19 -
Leveling and Contouring (Contd.)
01:00:08 -
Leveling and Contouring (Contd.)
58:58 -
Plane Tabling (PT)
52:50 -
Plane Tabling (PT) (Contd.)
59:17 -
Computaion and Adjustments
52:06 -
Computaion and Adjustments (Contd.)
57:46 -
Computaion and Adjustments (Contd.)
51:02 -
Computaion and Adjustments (Contd.)
55:31 -
Computaion and Adjustments (Contd.)
59:30 -
Obtaining Maps
56:46 -
Project Survey
57:19 -
Project Survey (Contd.)
01:00:08 -
Project Survey (Contd.)
58:21 -
GPS
59:22 -
GPS (Contd.)
48:02 -
GPS (Contd.)
58:22
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