A particle of charge q and mass m is mov...

A particle of charge q and mass m is moving with a velocity `-v hati (v ne0)` towards a large screen placed int eh Y-Z plane at a distance d. If there is a magnetic field `vecB = B_0 hatk` , the minimum value of v for which the particle will not hit the screen is :

Similar Questions

Explore conceptually related problems

A particle of charge q and mass m is moving with a velocity -v hati (v ne0) towards a large screen placed in the Y-Z plane at a distance d. If there is a magnetic field vecB = B_0 hatk , the minimum value of v for which the particle will not hit the screen is :

A particle of charge e and mass m moves with a velocity v in a magnetic field B applied perpendicular to the motion of the particle .The radius r of its path in the field is

If a particle of charge q is moving with a velocity v in a direction opposite to the magnetic field B, then the force acting on the particle is.

A charged particle of charge Q and mass m moves with velocity v in a circular path due to transverse magnetic field, B, then its frequency is

A particle of charge ‘q’moves with a velocity v at an angle ‘0’ to a magnetic field ‘B’. What is the force experienced by the particle ?

A particle of charge q and mass m, is fired perpenducular to a magnetic field (B) with a velocity v. What is the frequency of revolution of the particle?

A particle of charge q and mass m moving with a velocity v along the x-axis enters the region xgt0 with uniform magnetic field B along the hatk direction. The particle will penetrate in this region in the x -direction upto a distance d equal to

A particle of charge q and mass m is moving with a velocity `-v hati (v ne0)` towards a large screen placed int eh Y-Z plane at a distance d. If there is a magnetic field `vecB = B_0 hatk` , the minimum value of v for which the particle will not hit the screen is :

Similar Questions

Recommended Questions