What are the major differences between the electric force Fe and the magnetic force FM?

9 Answers. Electric forces are created by and act on, both moving and stationary charges; while magnetic forces are created by and act on only moving charges. Electric monopoles exist. Magnetic monopoles don’t* exist.

What are the differences and similarities between the magnetic force and the electric force on a charge?

“Similarities: Both can alter the velocity of a charged particle moving through the field. Both exert forces directly proportional to the charge of the particle feeling the force. … Electric forces can accelerate a charged particle from rest or stop a moving particle, but magnetic forces cannot.”

What is the major difference between electric charges and magnetic pole?

In the electric field, the like charges repel each other, and the unlike charges attract each other, whereas in a magnetic field the like poles repel each other and the unlike poles attract each other.

What is difference between magnetic field and magnetic force?

Two objects containing charge moving in the same direction have a magnetic attraction force between them. The space or the region around a magnet within which magnetic force is exerted on other magnet is called the magnetic field. …

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What is the difference between electric field and magnetic field?

The direction of the magnetic field is indicated by lines. While the electric fields are generated around the particles which obtain electric charge.

Difference Between Electric Field And Magnetic Field.

Difference Between Electric Field vs Magnetic Field
Electric Field Magnetic Field
Measured as newton per coulomb, volt per meter Measured as gauss or tesla

What are the similarities and differences between electricity and magnetism?

Electricity is due to the presence and movement of charge carriers. While magnetism is the result of the interaction between moving charges. Electricity is known to be an invisible force, while magnetism is regarded as an outcome of current electricity.

What does electricity and magnetism have in common?

3) Electricity and magnetism are essentially two aspects of the same thing, because a changing electric field creates a magnetic field, and a changing magnetic field creates an electric field. (This is why physicists usually refer to “electromagnetism” or “electromagnetic” forces together, rather than separately.)

What is the symbol of magnetic field?

Index to magnetic terms & units in the SI

Quantity name Quantity symbol Quantity symbol
magnetic field strength H Φ
magnetic flux density B χρ
magnetic moment m J
magnetic susceptibility χ M

How do the two electric charges behave?

According to Coulomb, the electric force for charges at rest has the following properties: Like charges repel each other; unlike charges attract. Thus, two negative charges repel one another, while a positive charge attracts a negative charge. The attraction or repulsion acts along the line between the two charges.

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What is the relationship between electric and magnetic fields?

Both electric and magnetic fields are the consequence of the attraction and repulsion of electric charges. However, a magnetic effect is caused by moving electric charges while an electric field is caused by stationary charges.

What type of force is a magnetic field?

The magnetic force is a consequence of the electromagnetic force, one of the four fundamental forces of nature, and is caused by the motion of charges. Two objects containing charge with the same direction of motion have a magnetic attraction force between them.

What is an example of a magnetic field?

Examples of magnetic force is a compass, a motor, the magnets that hold stuff on the refrigerator, train tracks, and new roller coasters. … All moving charges give rise to a magnetic field and the charges that move through its regions, experience a force.

What are some examples of a magnetic force?

An electric motor converts electrical energy into physical movement. Electric motors generate magnetic fields with electric current through a coil. The magnetic field then causes a magnetic force with a magnet that causes movement or spinning that runs the motor.

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