Lorentz force is experienced by*1 pointa stationary charge in electric fielda stationary charge in magnetic fielda moving charge in magnetic fielda moving charge in both electric and magnetic fields
Question
Lorentz force is experienced by*1 pointa stationary charge in electric fielda stationary charge in magnetic fielda moving charge in magnetic fielda moving charge in both electric and magnetic fields
Solution 1
The Lorentz force is experienced by a moving charge in both electric and magnetic fields.
Here's the step-by-step explanation:
-
Lorentz force is the combination of electric and magnetic force on a point charge due to electromagnetic fields.
-
If a particle of charge q moves with velocity v in the presence of an electric field E and a magnetic field B, then it will experience a force.
-
According to the Lorentz force law, F = qE + qvB. The first term is the electric force and the second term is the magnetic force.
-
Therefore, a stationary charge will not experience a magnetic force because the velocity v is zero, and vB will be zero.
-
Hence, a moving charge in both electric and magnetic fields will experience a Lorentz force.
Solution 2
The Lorentz force is experienced by a moving charge in both electric and magnetic fields.
Here's the step-by-step explanation:
-
A stationary charge in an electric field will experience an electrostatic force, not a Lorentz force.
-
A stationary charge in a magnetic field will not experience any force because the Lorentz force depends on the velocity of the charge. If the charge is not moving, the velocity is zero, and hence, the force is zero.
-
A moving charge in a magnetic field will experience a Lorentz force. This force is perpendicular to both the velocity of the charge and the magnetic field.
-
A moving charge in both electric and magnetic fields will also experience a Lorentz force. The total Lorentz force is the vector sum of the electric and magnetic forces.
Solution 3
The Lorentz force is experienced by a moving charge in both electric and magnetic fields.
Here's the step by step explanation:
-
A stationary charge in an electric field will experience an electric force, but this is not the Lorentz force. The Lorentz force includes both electric and magnetic effects.
-
A stationary charge in a magnetic field will not experience any force. This is because the magnetic component of the Lorentz force depends on the velocity of the charge. If the charge is not moving, it does not experience a magnetic force.
-
A moving charge in a magnetic field will experience a force. This is the magnetic component of the Lorentz force. The direction of this force is always perpendicular to the direction of motion.
-
A moving charge in both an electric and a magnetic field will experience a force. This force is the Lorentz force. It includes both the electric force (which is independent of the velocity of the charge) and the magnetic force (which depends on the velocity of the charge).
Similar Questions
The Lorentz force is the force on a charged particle moving in a region containing _____________
At any point, the magnetic field lines are in the direction ofA the magnetic force on a moving negative charge B the velocity of a moving positive charge C the velocity of a moving negative charge D none of the above
What is the force that a charged particle, Q, experiences as it moves at a speed of v through a magnetic field, B? 2 pointsmaqvBFsinθZero
A moving electric charge produces:ans. Neither of these two fieldsMagnetic field onlyElectric field onlyBoth electric and magnetic fields Previous Marked for Review Next
A positive charge placed in an electric field will experience a forceIn the opposite direction of electric fieldIn the same direction as that of electric fieldDepends on the situationCan’t say
Upgrade your grade with Knowee
Get personalized homework help. Review tough concepts in more detail, or go deeper into your topic by exploring other relevant questions.