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When a charged particle enters the force field of another charged particle, it experiences an electrostatic force due to the interaction of their electric fields. The nature of this force depends on the charges involved: like charges repel each other, while opposite charges attract. This force can cause the entering particle to accelerate, change direction, or alter its velocity, depending on its initial trajectory and the strength of the field. The result is a change in the motion of the charged particle as it interacts with the field created by the other charge.

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When a charged particle enters in a uniform magnetic field then its kinetic energy ..becomes?

When a charged particle enters a uniform magnetic field, its kinetic energy remains constant. This is because the magnetic field exerts a force perpendicular to the particle's velocity, which changes the direction of the particle's motion but does not work on it. As a result, the speed of the particle—and thus its kinetic energy—remains unchanged, leading to circular or helical motion.


What happens if the electron enters the magnetic field parallel to B?

If an electron enters a magnetic field parallel to the field lines (i.e., parallel to B), it will not experience any deflection or force due to the magnetic field. This is because the force on a charged particle moving parallel to a magnetic field is zero.


How charg particle move when it enters field at angle other than 90?

The charged particle moves like it accelerated around the field and along the field:F= - qV.B + qVxB = ma = -qvbcos(angle) + nqvbsin(angle) where n is perpendicular to the the plane of V x B. The acceleration a= F/m = (-cos(angle) + n sin(angle))qvB/m is a quaternion acceleration consisting of a scalar and a vector.The motion of the particle is an ellipse inclined to the direction of the field. If the angle is 90 degrees, the ellipse is a circle and is perpendicular to the field direction.


Why does an eclipse of the moon occur?

It happens when the Moon enters Earth's shadow.


Two identical charged particles moving with same speed enter a region of uniform magnetic field If one of these enters normal to the field direction and the other enters along a direction at 30 with?

So the forces acting on these charges have to be compared. Is it so? The famous formula meant to know about the force acting on a moving charged particle entering into a magnetic field is given as F = B q v sin@ Here @ is the angle inclined by the moving particle with the magnetic field. In the first case @ = 90 deg. As sin90 = 1 the force is Bqv. In second case @ = 30 deg. As sin 30 = 1/2 the force is 1/2 Bqv. Hence the force on the latter will be half of that on the earlier one.

Related Questions

When a charged particle enters in a uniform magnetic field then its kinetic energy ..becomes?

When a charged particle enters a uniform magnetic field, its kinetic energy remains constant. This is because the magnetic field exerts a force perpendicular to the particle's velocity, which changes the direction of the particle's motion but does not work on it. As a result, the speed of the particle—and thus its kinetic energy—remains unchanged, leading to circular or helical motion.


What are the types of circular motion?

1) Pathway of a charged particle when it enters a magnetic field... 2) Pendulum oscillations. (simple harmonic motion)


Do mute people sneeze?

yes, they sneeze because it is just the expansion & sudden contraction forcing the air out. it happens when a dust particle or a pollen grain enters the lungs


What happens when a immigrant enters a country?

An immigrant is a person who comes from one country into another. An emmigrant leaves one country for another.


What happens when light enters polarizing filter?

what happens when light enters a polorizing filter?


How is a charged particle accelerated when the electric field inside the dees of a cyclotron is zero?

In a cyclotron, the charged particle is accelerated by the oscillating electric field between the dees. When the particle enters the gap between the dees, the electric field is zero, but a magnetic field causes the particle to rotate in a circular path and gain energy each time it crosses the gap due to its velocity being increased by the electric field before entering the gap.


What happens if the electron enters the magnetic field parallel to B?

If an electron enters a magnetic field parallel to the field lines (i.e., parallel to B), it will not experience any deflection or force due to the magnetic field. This is because the force on a charged particle moving parallel to a magnetic field is zero.


You are a dust particle that enters earths atmosphere and is burned up?

A meteor


How you find answers of aipmt2008?

a particle of mass m charge q & the K.E T enters a transverse uniform magnetic field of induction B after 3 sec the K.E of particle will be a particle of mass m charge q & the K.E T enters a transverse uniform magnetic field of induction B after 3 sec the K.E of particle will be a particle of mass m charge q & the K.E T enters a transverse uniform magnetic field of induction B after 3 sec the K.E of particle will be


A charged particle moving with a constant velocity enters a magnetic field?

when a charged particle is moving with some velocity it produces some magnetic field. If we place that charged particle in presence of external magnetic field it gets affected by that external field.


How charg particle move when it enters field at angle other than 90?

The charged particle moves like it accelerated around the field and along the field:F= - qV.B + qVxB = ma = -qvbcos(angle) + nqvbsin(angle) where n is perpendicular to the the plane of V x B. The acceleration a= F/m = (-cos(angle) + n sin(angle))qvB/m is a quaternion acceleration consisting of a scalar and a vector.The motion of the particle is an ellipse inclined to the direction of the field. If the angle is 90 degrees, the ellipse is a circle and is perpendicular to the field direction.


Which size particle will remain suspended longest as a river enters the ocean?

clay