the pathway along the which charged particles can move
Answers
When a charge passes through a magnetic field, it experiences a force called Lorentz Force
=qVBsinθ
When the charge particle moves along the direction of a uniform magnetic fieldθ=0° or 180°
∴F=qVB(0)=0
Thus the charged particle would continue to move along the line of magnetic field.i.e, straight path.
Answer:
The work done on a charged particle is nil because the Lorentz force is perpendicular to the velocity vector. That is why a magnetic field may change the direction of particle travel while retaining particle kinetic energy. So, in order to accelerate charged particles, an electric field must be required, but a magnetic field is simply used to keep propelled particles on a fixed circular route.
Explanation:
Lorentz Force is experienced by a charge when it travels through a magnetic field.
Whenever a charge particle moves in the direction of a uniform magnetic field=0° or 180°, it is said to be in a uniform magnetic field.
∴F=qVB(0)=0
As a result, the charged particle would continue to flow along the magnetic field line i.e. a straight line
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