When E_|_B and the particle is released at rest from origin. | 12 | MAGNETICS | PHYSICS | DC PA...

If magnetic field in space is 1Thati , electric field is 10 N//Chati , no gravitational field is present and a charged particle is released from rest from origin, it will

Electric field strength bar(E)=E_(0)hat(i) and magnetic induction bar(B)=B_(0)hat(i) exists in a region. A charged particle 'q' is released from rest at origin. Work done by both the fields is after certain time is

Assertion: Uniform electric and magnetic field are applied along Y-axis andZ-axis respectively. Kinetic energy of particle released at rest from origin depends only on the y-coordinate of particle. Reason: Work done by the magnetic force is zero. Kinetic energy gained by the particle is only due to electric force

Assertion : A charge particle is released particle is released from rest in magnetic field then it will move in circular path. Reason : Work done by magnetic field is non zero.

In a region, steady and uniform electric and magnetic fields are present . These two fields are parallel to each other. A charged particle is released from rest in this region . The path of the particle will be a

Electric field and magnetic field in a region of space are given by vec E = E_(0) hat I " and " vec B = - B_(0) hat k , respectively. A positively charged particle (+q) is released from rest at the origin. When the particle reaches a point P(x, y, z) , then it attains kinetic energy K that is equal to

A particle of mass 0.3 kg is subjected to a force F = - kx , Where = 15 Nm^(-1) . What will be its initial acceleration when particle is released from a point 20 cm away from origin ?

A charged particle (q,m) is released from origin in an electric field E = alpha - beta x where alpha and beta are constants and x is distance from origin. Find the velocity of particle in terms of x and maximum displacement of the particle.

Electric field and magnetic field in a region of space are given by (Ē= E_0 hat j) . and (barB = B_0 hat j) . A charge particle is released at origin with velocity (bar v = v_0 hat k) then path of particle is