01:02

For RRB GS SHORT-24

01:04

For RRB GS SHORT-11

00:43

For RRB- general science

21:03

For RRB-Gravitation summary

17:37

For RRB - Work and energy summary

20:05

For RRB- force and laws of motion summary

03:17

physical quantities

08:40

Position-time graph

05:07

Acceleration and displacement graph

38:44

Summer Special Compaign feedback

04:56

The v-s and v² -s graphs are given

09:10

velocity-displacement graph

01:35

determination of speed when velocity is given

00:55

vector shorts

11:22

How are velocity and acceleration vectors with one another....?

12:03

Example of a dot product

05:01

how to convert a vector into a scalar...?

01:07:16

An interactive class- dynamics( kurnool- Canada)

15:19

How to select a good college after 10th class...???

13:59

Importance of intermediate physics...?

03:13

Image formation when mirrors are perpendicular to each other

11:57

Request to parents and children

22:09

Position, Pathlength and displacement

12:01

Motion in a straight line -Introduction

12:01

spring-mass system (vertical oscillation)

09:13

spring-mass system (vertical oscillation)

14:57

Adiabatic process

12:50

ISOTHERMAL PROCESS

08:27

Time period derivation of spring-mass system (Energy-method)

10:18

Time period derivation of spring-mass system(force method)

04:28

Effective resistance calculation

06:20

voltage calculation

04:07

current calculation

39:53

series and parallel way of connection of resistors

10:01

trigonometry application-1

03:46

how to apply trigonometry in physics

12:30

Gravitational force between an extended object and a particle

14:01

Gravitation and the principle of superposition

15:14

Newton's law of gravitation

22:05

Gravitation -Kepler's laws

15:41

Electric current

04:31

Current Electricity - Introduction

10:59

kinematics equations (graphical method)

07:26

dielectric constant

25:59

Graphs- Introduction

09:15

Four quadrants and sign conventions for trigonometry

08:44

distance covered in nth second

06:41

kinematics equations for uniformly accelerated motion

30:35

Trigonometry- introduction

19:10

kinematics equations for non uniform accelerated motion

07:11

A ball is thrown up along an inclined plane. It goes up with a velocity which is decreasing cont

08:02

A toy train is moving along X axis in such a way that its coordinate(X) varies with time (t)

08:10

The displacement in meter of a particle moving with uniform acceleration after t seconds is given

13:02

Average acceleration

13:45

Average velocity

14:50

Average Speed

18:29

Motion in a straight line

13:35

Differential calculus: Maximum and Minimum conditions

14:03

Elements of calculus: Differential calculus

06:03

Example 1.2