A uniform magnetic field of 1 Tesla in ...

A uniform magnetic field of 1 Tesla in space. The velocity of particle is V perpendicular to the magnetic field intensity. Find the radius of circular path followed by the particle. How much time will the particle take to complete one revolution? mass of particle is m and charge on particle is q

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To solve the problem step by step, we will derive the radius of the circular path followed by a charged particle in a magnetic field and the time taken to complete one revolution. ### Step 1: Understand the Forces Acting on the Particle When a charged particle with charge \( q \) moves with velocity \( v \) perpendicular to a magnetic field \( B \), it experiences a magnetic force given by: \[ F = qvB \] This force acts as the centripetal force that keeps the particle in circular motion. ...

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