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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.
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What can the vibration of an electrically charged particle produce?
The vibration of an electrically charged particle can produce electromagnetic waves, such as light. This happens when the charged particle accelerates or changes direction, generating oscillating electric and magnetic fields that propagate through space as electromagnetic radiation.
What happens when a charged particle is moved along an electric field line?
When a charged particle is moved along an electric field line, it experiences a force in the direction of the field line. This force causes the particle to accelerate in the direction of the field line if the particle has the same charge as the field line, or decelerate if the charges are opposite.
What happens when you place a positive charged object in a magnetic field?
When a positive charged object is placed in a magnetic field, it experiences a force perpendicular to both the direction of the magnetic field and the object's velocity. The direction of the force is determined by the right-hand rule, and the object will move in a curved path due to this force.
What happens to a charged particle placed between two charged plates?
When a charged particle is placed between two charged plates, it will experience a force due to the electric field created by the plates. The particle will move in the direction of the force, either towards the positively charged plate or the negatively charged plate, depending on the charge of the particle and the plates.
What happens when a charged particle is placed in an electric field of another particle with the same charge?
The charged particle will experience a repulsive force due to the like charges, causing it to move away from the other particle. The magnitude of the force is directly proportional to the product of the charges and inversely proportional to the square of the distance between them.
What happens to a charged particle at rest in the magnetic field Does the particle accelerate?
The particle stays at rest a= f/m = 0; because force = qvB is zero if v=0.
What can the vibration of an electrically charged particle produce?
The vibration of an electrically charged particle can produce electromagnetic waves, such as light. This happens when the charged particle accelerates or changes direction, generating oscillating electric and magnetic fields that propagate through space as electromagnetic radiation.
What happens to a positively-charged alpha particle that comes near the positively charged nucleus?
This particle is rejected.
What happens when a charged particle is moved along an electric field line?
When a charged particle is moved along an electric field line, it experiences a force in the direction of the field line. This force causes the particle to accelerate in the direction of the field line if the particle has the same charge as the field line, or decelerate if the charges are opposite.
What happens when a charged particle enters the force field of another charged particle?
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.
What happens when you place a positive charged object in a magnetic field?
When a positive charged object is placed in a magnetic field, it experiences a force perpendicular to both the direction of the magnetic field and the object's velocity. The direction of the force is determined by the right-hand rule, and the object will move in a curved path due to this force.
What happens to the positively charged alpha particle that comes near the positively charged nucleus?
It will repel
What happens to a positively charged alpha particle that comes near the positively-charged nucleus?
It will repel
What happens to a positively-charged alpha particle directly hits the positively-charged nucleus?
When a positively-charged alpha particle directly hits a positively-charged nucleus, it experiences a strong electrostatic repulsion due to the like charges. This repulsion can cause the alpha particle to be deflected away from the nucleus, preventing it from penetrating further. If the energy of the alpha particle is high enough, it may overcome the repulsive force, resulting in nuclear reactions or the emission of radiation, but typically, it is repelled.
What happens to a charged particle placed between two charged plates?
When a charged particle is placed between two charged plates, it will experience a force due to the electric field created by the plates. The particle will move in the direction of the force, either towards the positively charged plate or the negatively charged plate, depending on the charge of the particle and the plates.
What happens to a positively-charge alpha particle that comes near the positively-charged nucleus?
This particle will be rejected.
What happens if there were only one electrically charged particle?
then we would never know about charge on it.
