Select all the correct answers.
Which two statements about an electric motor are true?
It converts motion energy to electric energy.
It depends on the relative motion of a magnet and a current-carrying wire.
It depends on a rotating magnet to create a magnetic field.
It converts electric energy to motion energy.
It doesn't require electricity because it uses electromagnetism.

Question

ryleespin ryleespin

03-05-2024
Physics

Answered

Select all the correct answers.
Which two statements about an electric motor are true?
It converts motion energy to electric energy.
It depends on the relative motion of a magnet and a current-carrying wire.
It depends on a rotating magnet to create a magnetic field.
It converts electric energy to motion energy.
It doesn't require electricity because it uses electromagnetism.

Answer :

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GinnyAnswer GinnyAnswer · Answer 1 · 2024-05-03T16:22:25-04:00

In the context of an electric motor, the two correct statements are: 1. It depends on the relative motion of a magnet and a current-carrying wire. 2. It converts electric energy to motion energy. Explanation: 1. An electric motor operates based on the principle of electromagnetic induction, where the relative motion between a magnet and a current-carrying wire generates a magnetic field that interacts to produce motion. This motion is what enables the motor to perform work. 2. Electric motors convert electrical energy into mechanical motion. When an electric current flows through the wire in the presence of a magnetic field, it creates a force that causes the motor to rotate and perform tasks such as driving machinery or appliances. This conversion of electrical energy into motion energy is a key function of electric motors. By understanding these two aspects of how electric motors work, you can grasp the fundamental principles behind their operation and why these statements are true in the context of electric motor functionality.