how much is the force experienced by a charged particle moving parallel to the magnetic field direction?
Answers
Answer:
Charged Particles Moving Parallel to Magnetic Fields
Zero Force When Velocity is Parallel to Magnetic Field: In the case above the magnetic force is zero because the velocity is parallel to the magnetic field lines.
Explanation:
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Given: a charged particle moving parallel to the magnetic field direction
To find: force experienced by a charged particle
Solution: We are given a particle that is moving in a magnetic field and we need to find the force on that particle
As according to LORENTZ law
F = q(V×B)
where F is a force on the moving particle, q is a charge on that particle, V is the speed with which the particle is moving and B is the magnetic field
F= qVBsin@
here we are given that particle is moving parallel to the direction of the magnetic field
So we can say that @ that is the angle between V and B will be either 0° or 180°
on putting values we get
F = 0
that means the particle will experience no force
Therefore, the force experienced by a charged particle moving parallel to the magnetic field direction will be 0.