52:47

Eigenvalues and Eigenvectors | Solved Examples | Part B | DLH

52:49

Eigenvalues and Eigenvectors | Introductory Lecture | Part A | DLH

49:27

Cauchy–Riemann Equations | Introduction + Solved Examples | DLH

52:06

De Moivre's Theorem | Proof + Solved Examples | DLH

36:58

Polar Form of a Complex Number | Argument of a Complex Number (General + Principle) | DLH

31:24

Complex Numbers | Introduction | Basic Operations | DLH

30:04

Applications of Matrices & Linear System | Balancing Chemical Equations | Solved Example | DLH

29:06

Applications of Matrices & Linear System | Balancing Chemical Equations | Intro + Solved Example

33:44

Applications of Matrices & Linear System | Current/Electric Flow Problems | Solved Examples | DLH

29:34

Applications of Matrices & Linear System | Current/Electric Flow Problems | Introduction | DLH

01:06:35

Design of Compression Member as a Strut | Solved Problem | DLH

51:35

Analysis of Compression Member as a Strut | Solved Problem | DLH

45:15

Runge-Kutta Method | Working Rule | Solved Example | DLH

32:00

Modified Euler's Method | Working Rule | Solved Example | DLH

32:51

Improved Euler's Method | Working Rule | Solved Example | DLH

46:31

Classical Euler's Method | Working Rule | Solved Example | DLH

39:58

Applications of Matrices & Linear System | Traffic Flow Problems | DLH

32:33

System of Linear Equations and Matrices | Homogeneous Vs Non-Homogeneous System | DLH

01:06:41

System of Linear Equations and Matrices | Gaussian Elimination Method | Gauss-Jordan Method | DLH

01:07:33

Design of Compression Member as a Column | Solved Problem | DLH

01:17:57

Analysis of Compression Member as a Column | Solved Problems | DLH

01:37:48

Steady Flow in Open Channel | Channels of most Economical Cross-Section | Lecture 13 | DLH

02:22:00

Steady Incompressible Flow in Pressure Conduits | Losses | Pipe Network Analysis | Lecture 12 | DLH

12:44

Flow Measurement | Francis' & Bazin's Formula for Discharge | Mouth Piece & its Types | Lecture 11-B

17:00

Flow Measurement | Flow Over Weirs | Weir Vs Notch | Discharge Over a Rectangular Weir| Lecture 11-A

01:20:55

Flow Measurement | Vortex Flow | Notch and its Types | Flow Over Notches | Lecture 10 | DLH

29:00

Flow Measurement | Pitot Tube | Flow Through Orifices | Hydraulic Coefficients | Lecture 09-B

01:19:39

Flow Measurement | Bernoulli's Theorem Applications | Venturimeter | Orifice Meter | Lecture 09-A

02:06:29

Fluid Dynamics | Bernoulli's Theorem | Internal Energy | True Kinetic Energy | Lecture 08 | DLH

02:14:56

Fluid Kinematics | Continuity Equation | Fluid Dynamics | Energy | Mach No | Lecture 07 | DLH

01:36:48

Fluid Kinematics | Introduction | Dimensions & Types of Flow | Reynold's Experiment | Lecture 06

01:38:28

Fluid Statics | Archimedes Principle | Buoyancy | Metacenter | Metacentric Height | Lecture 05 | DLH

02:11:11

Fluid Statics | Absolute & Gauge Pressure | Pressure Measurement Devices | Lecture 04 | DLH

01:59:12

Fluid Statics | Pascal's Principles | Pascal's Law | Hydrostatic Law | Lecture 03 | DLH

01:38:17

Fluid Mechanics | Viscosity | Velocity Profile | Surface Tension | Lecture 02 | DLH

02:01:07

Fluid Mechanics | Concept + Applications | Solved Numerical | Dimension Analysis | Lecture 01 | DLH

49:20

Kinetics | Solved Numerical Problems | Part K

38:30

Kinetics | Solved Numerical Problems | Part J

32:35

Kinetics | Solved Numerical Problems | Part I

35:51

Kinetics | Conservation of Momentum for a Particle or a Rigid Body | Impact and its Types | Part H

35:30

Kinetics | Impulse and Momentum | Principles of Impulse & Momentum for a System of Particles| Part G

34:46

Kinetics | Power | Horse Power | Efficiency | Conservation of Energy for a Particle | Part F | DLH

32:52

Kinetics | Principle of Work & Energy for a Particle and for a System of Particles | Part E | DLH

32:49

Kinetics | Energy | Conservative Vs Non Conservative Force | Part D | DLH

37:18

Kinetics | Work of a Spring Force | Energy | Kinetic Energy and Potential Energy | Part C | DLH

33:08

Kinetics | Work and Energy | Work of a Variable Force | Work of a Weight | Part B | DLH

31:14

Kinetics | Force and Acceleration | Inertial Frame of Reference | Part A | DLH

14:33

Kinematics | Curvilinear Motion | Solved Problem | Part P

38:47

Kinematics | Curvilinear Motion | Radial & Transverse Component of Velocity & Acceleration | Part O

39:06

Kinematics | Curvilinear Motion | Radial & Transverse Component of Velocity & Acceleration | Part N

39:14

Kinematics | Curvilinear Motion | Solved Numerical Problem | Part M | DLH

35:31

Kinematics | Curvilinear Motion | Solved Numerical Problem | Part L | DLH

35:52

Kinematics | Curvilinear Motion | Tangential & Normal Component of Velocity & Acceleration | Part K

38:49

Kinematics | Curvilinear Motion | Tangential & Normal Component of Velocity & Acceleration | Part J

36:56

Kinematics | Curvilinear Motion | 2D & 3D Rectangular Component of Velocity & Acceleration | Part I

20:18

Kinematics | Curvilinear Motion | Concept + Practical Use | Position | Velocity | Part H | DLH

11:40

Kinematics | Rectilinear Motion Solved Numerical | Part G | DLH

38:44

Kinematics | Rectilinear Motion Solved Numerical | Part F | DLH

37:27

Kinematics | Rectilinear Motion Solved Numerical | Part E | DLH

16:57

Kinematics | Dynamic Equilibrium Vs Static Equilibrium | Part D | DLH