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A magnetic field alters the direction a charged particle is traveling. This is true if the charged particle is moving "across" and not "along" the magnetic lines of force of the field through which it is moving. The particle is said to be deflected when it (the particle) passes through magnetic field lines.
The reason for the observed deflection is because a charged particle that is moving creates a magnetic field, and this field will react with the magnetic field through which it is moving. The result will be lateral deflection, and positively charged particles will be deflected one way and negatively charged particles will be deflected the other.
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Can you accelerate a stationary charge particle in a magnetic field?
No, a stationary charge particle cannot be accelerated in a magnetic field. In order to be affected by a magnetic field, the charged particle must be moving.
How does the Earth's magnetic field deflect charged particles?
A charged particle naturally changes direction in a magnetic field. This is because any charged particle produces a magnetic field when it is moving. And if the charged particle is moving through a magnetic field, the two fields (in this case the Earth's and the one created by the moving particle) interact to deflect the particle. The particle will be deflected "to the side" or laterally, and positively charged particles will be deflected in the opposite direction of negatively charged one.
Which statement describes the magnetic force on a charged particle when the particle is moving at a right angle to the magnetic field?
When a charged particle moves perpendicular to a magnetic field, it experiences a magnetic force that acts perpendicular to both the particle's velocity and the magnetic field direction. This force can cause the charged particle to move in a circular path due to the magnetic field's influence on its direction of motion.
How does the magnetic field affect the speed of a particle?
The magnetic field can change the direction of a charged particle's movement, but it does not directly affect its speed.
Which way will negatively charged particle be deflected by a magnetic field?
A negatively charged particle will be deflected in a direction perpendicular to both its velocity and the magnetic field when moving through the field. This is due to the Lorentz force, which acts on the particle in a direction perpendicular to both its velocity and the magnetic field lines.
DO charged particles have a magnetic field?
if charge particle is in motion ,then it has magnetic field
Can you accelerate a stationary charge particle in a magnetic field?
No, a stationary charge particle cannot be accelerated in a magnetic field. In order to be affected by a magnetic field, the charged particle must be moving.
How does the Earth's magnetic field deflect charged particles?
A charged particle naturally changes direction in a magnetic field. This is because any charged particle produces a magnetic field when it is moving. And if the charged particle is moving through a magnetic field, the two fields (in this case the Earth's and the one created by the moving particle) interact to deflect the particle. The particle will be deflected "to the side" or laterally, and positively charged particles will be deflected in the opposite direction of negatively charged one.
Which statement describes the magnetic force on a charged particle when the particle is moving at a right angle to the magnetic field?
When a charged particle moves perpendicular to a magnetic field, it experiences a magnetic force that acts perpendicular to both the particle's velocity and the magnetic field direction. This force can cause the charged particle to move in a circular path due to the magnetic field's influence on its direction of motion.
How does the magnetic field affect the speed of a particle?
The magnetic field can change the direction of a charged particle's movement, but it does not directly affect its speed.
Which way will negatively charged particle be deflected by a magnetic field?
A negatively charged particle will be deflected in a direction perpendicular to both its velocity and the magnetic field when moving through the field. This is due to the Lorentz force, which acts on the particle in a direction perpendicular to both its velocity and the magnetic field lines.
How does the motion of a charged particle in a magnetic field affect its trajectory?
When a charged particle moves through a magnetic field, it experiences a force that causes it to change direction. This force is perpendicular to both the particle's velocity and the magnetic field, resulting in the particle moving in a curved path. This phenomenon is known as the Lorentz force and is responsible for the particle's trajectory being deflected in the presence of a magnetic field.
What must a charged particle be doing in order to experience a magnetic force?
A charged particle must be moving in a magnetic field in order to experience a magnetic force. If the particle is stationary, it will not experience a magnetic force.
What happens when a charged particle moves and experiences no magnetic force?
When a charged particle moves and experiences no magnetic force, it means that either the magnetic field is zero or the magnetic field is perpendicular to the velocity of the charged particle. As a result, the particle will only experience the electric force, causing it to follow a straight path according to the Lorentz force law.
Why does a charged particle move in a curved path in a magnetic field?
A charged particle moves in a curved path in a magnetic field because the magnetic field exerts a force on the particle perpendicular to both the field direction and the particle's velocity. This force leads to the particle's motion being curved, following a circular or helical trajectory depending on the initial conditions.
Does an alpha particle would be affected by magnetic field?
Yes, an alpha particle would be affected by a magnetic field because it has a charge. When moving through a magnetic field, the charged alpha particle will experience a force perpendicular to both its velocity and the magnetic field direction, leading it to move in a curved path.
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.
