Are charged particle is released from rest in a region of steady and uniform electric and magnetic field which are parallel to each other the particle will move in a?

straight line
If a charged particle is released from rest in a region of uniform electric and magnetic fields parallel to each other, it will move in straight line.

When a charged particle is released from rest in a region of electric field its path will represent the electric field lines in the region?

The charged particle will be accelerated parallel (if it is a positive charge) or antiparallel (if it is a negative charge) to the electric field, i.e. the charged particle will move parallel or antiparallel to electric and magnetic field.

What would happen to a charged particle at rest in the magnetic field?

A charged particle experiences a force when moving through a magnetic field. Since the magnetic force is perpendicular to the direction of travel, a charged particle follows a curved path in a magnetic field. The particle continues to follow this curved path until it forms a complete circle.

Does a charge at rest has magnetic field?

Electric field and magnetic field are not independent. They are two aspects of the electromagnetic field. Charge at rest only produces electric field. Moving charge with acceleration produces both electric field and magnetic field.

When a charged particle Q is released in a uniform magnetic field parallel to the field then what will be the value of magnetic force and the path of the charged particle?

Therefore, the magnetic force on the charged particle will be zero.

When a charge particle is released will it follow electric field line?

Therefore, the electric and magnetic force will act on it to change its direction in the field. Here, E is the electric field. As soon as the particle is released, due to the electric force \[{F_e}\] on the charged particle, the charge particle will follow the straight line path in the direction of the electric field.

In which condition will the charged particles pass straight?

Constant Velocity Produces a Straight-Line If a charged particle’s velocity is parallel to the magnetic field, there is no net force and the particle moves in a straight line.

Can a charged particle at rest be set in motion by the action of a magnetic field?

What if were placed at rest in an electric field? An electron at rest in a magnetic field experiences no force, so cannot be set in motion by the magnetic field.

Does a charge at rest establish magnetic field?

A charged particle moving without acceleration produces an electric as well as a magnetic field. It produces an electric field because it’s a charge particle. But when it is at rest, it doesn’t produce a magnetic field.

What will be the path of charged particle?

Since the magnetic force is perpendicular to the direction of travel, a charged particle follows a curved path in a magnetic field. The particle continues to follow this curved path until it forms a complete circle. The magnetic force is perpendicular to the velocity, so velocity changes in direction but not magnitude.