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A particle starting0:04:39

A particle starting from rest |H.C.VERMA |REST AND MOTION |Q.NO 18| VOLUME _1|NARASIMHARAO

A Bullet going0:05:28

A Bullet going with a speed 350m/s| H.C.VERMA |Q.NO 17| REST AND MOTION| volume_1|NARASIMHARAO SIR

A Train starts0:17:17

A Train starts from rest |H.C.VERMA | Q.NO 15| REST AND MOTION |EXERCISE | volume _1 |NARASIMHARAO

A Bullet travelling0:05:32

A Bullet travelling with a velocity of 16m/s | H.C.VERMA | REST AND MOTION | Q.NO 16| NARASIMHARAO

A Person traveling0:05:21

A Person traveling at 43.2 kmph| H.C.VERMA | q.no 14| Rest and motion |EXERCISE |NARASIMHARAO SIR

An object having0:03:00

An object having a velocity 4.0 m/s|H.C.VERMA |Q.NO 13| REST AND MOTION |NARASIMHARAO|Exercise

H.C.VERMA | VOLUME0:08:54

H.C.VERMA | VOLUME 1| REST AND MOTION | QNO. 10| EXERCISE | NARASIMHARAO SIR | V_t graph

H.C.VERMA |REST AND0:15:43

H.C.VERMA |REST AND MOTION |Q.NO 9|EXERCISE | NARASIMHARAO | X_ t graph

Rest and motion0:06:26

Rest and motion |H.C.VERMA |q.no 8|EXERCISE |NARASIMHARAO | V_ t graph

The Electric potential0:13:54

The Electric potential existing in space is V(x,y,z)= A(xy+yz+zx)|H.C.VERMA |q.no 60|Chapter 29

An Electric field0:06:53

An Electric field E = 20i +30j N/C exists in the space |H.C.VERMA|q.no58| ELECTRIC FIELD& POTENTIAL

Some equipotential surfaces0:15:26

Some equipotential surfaces | H.C.VERMA |Q.no 62| ELECTRIC FIELD AND POTENTIAL |NARASIMHARAO

The acceleration of0:15:18

The acceleration of a cart started at t=0 varies with time | H.C.VERMA | q.no. 7 | Rest and motion

AN ELECTRIC FIELD0:09:11

AN ELECTRIC FIELD E = iAx exists in the space| H.C.VERMA | Q.no. 59| ELECTRIC FIELD AND POTENTIAL

Caluculate the smallest0:12:06

Caluculate the smallest wavelength of radiation |H.C.VERMA|Q.no.3|Bohrs model & Physics of the atom

The Bohr radius0:06:02

The Bohr radius a₀= ε₀h²/πme²|Q.no 1| Bohr model and physics of the atom|H.C.VERMA | NARASIMHARAO

A particle of0:06:53

A particle of mass m and charge q is thrown at speed uH.C.VERMA | Qno.47|ELECTRIC FIELD &POTENTIAL

A Pendulum Bob0:11:34

A Pendulum Bob of mass 80mg and carrying a charge| H.C.VERMA |q.no46|ELECTRIC FIELD &POTENTIAL

The Speed of0:05:44

The Speed of a car as a function of time is shown | H.C.VERMA |Q.no.6|Rest and motion |NARASIMHARAO

A 10 cm0:09:16

A 10 cm long rod carries a charge of 50μc| H.C.VERMA |Q.no.41|ELECTRIC FIELD&POTENTIAL|NARASIMHARAO

A ROD of0:05:59

A ROD of length L has a total charge Q distributed |H.C.VERMA|Q.no.40| ELECTRIC FIELD AND POTENTIAL

Three identical charges0:16:01

Three identical charges each having a value 1.0×10⁻⁸c| H.C.VERMA|Q.NO 38|ELECTRIC FIELD & POTENTIAL

A water particle0:05:43

A water particle of mass 10.0mg and having a charge of 1.50 ×10⁻⁶c |H.C.VERMA |q.no.37|Chapter 29

The displacement x0:02:57

The displacement x of a particle at the instant ,when it's velocity V = under root of 3x+16