A uniform magnetic field of magnitude 0.20 T exists in space from east to west what speed should a particle of mass 0.010 g and having a charge `1.0 X 10^(-5)C` be projected from south to north so that it moves with a uniform velocity?

A uniform magnetic field of magnitude 0.20 exists in space from east to west.A particle having mass 10^(-5)kg and charge 10^(-5)C is projected from south to north so that it moves with a uniform velocity.Find velocity of projection of the particle? (g=10 m//s^(2))

A uniform magnetic field of magnitude 1T exists in region yge0 along hatk direction as shown. A particle of charge 1C is projected from point (-sqrt(3),-1) towards origin with speeds 1 m//sec . If mass of particle moves are:

A uniform magnetic field of 0.20 xx 10^(-3) T exists in the space. Find the the change in the magnetic scalar potential as one moves through 50cm along the field.

In a region of space a uniform magnetic field exist in positive z direction and there also exists a uniform electric field along positive y direction. A particle having charge + q and mass m is released from rest at the origin. The particle moves on a curve known as cycloid. If a wheel of radius R were to roll on the X axis, a fixed point on the circumference of the wheel would generate this cycloid. Find the radius R. It is given that strength of magnetic and electric fields are B0 and E0 respectively.

A uniform magnetic field B=B_(0)hatj exists in space. A particle of mass m and charge q is projected towards X-axis with speed v from a point (a,0, 0). The maximum value of v for which the particle does not hit the Y-Z plane is

A magnetic field of (4.0 X10^(-3)vec k) T exerts a force of (4.0veci +3.0vecj x 10^(-10) N on a particle having a charge of 1.0X10^(-9) C and going in the x-y plane. Find the velocity of the particle.

A uniform magnetic field barB =B_(0)hatj exists in a space. A particle of mass m and charge q is projected towards negative x-axis with speed v from the a point (d,0,0) The maximum value v for which the particle does not hit y-z plane is .

There exist uniform magnetic and electric fields of manitudes 1T and 1Vm^-1 respectively, along positive y-axis. A charged particle of mass 1kg and charge 1C is having velocity 1ms^-1 along x-axis and is at origin at t=0. Then, the coordinates of the particle at time pis will be