# Quick Answer: What kind of force turns an electric motor?

Contents

Electric motors use the forces produced by magnetic fields to produce a turning motion. If you put a length of wire in a magnetic field and pass a DC current through it (such as from a battery), the wire will move. This is called the motor effect . two bar magnets.

## What is the force that produces rotation in an electric motor?

A coil of wire carrying a current in a magnetic field experiences a force that tends to make it rotate. This effect can be used to make an electric motor.

## What force does Electric motors use?

Electric motors involve rotating coils of wire which are driven by the magnetic force exerted by a magnetic field on an electric current. They transform electrical energy into mechanical energy.

## What makes electric motors rotate?

Inside an electric motor, permanent magnets are set onto a ring surrounding a coil of wire. When the appliance’s switch is flicked on, electrons flow through the wire, turning it into an electromagnet. The attractive and repulsive forces of the permanent magnets around it make the electromagnet spin.

## What is a motor force?

A current-carrying wire or coil can exert a force on a permanent magnet. This is called the motor effect. The wire could also exert a force on another nearby current-carrying wire or coil. … The force increases if the strength of the magnetic field and/or current increases.

## How does a motor create a turning force?

Electric motors use the forces produced by magnetic fields to produce a turning motion. If you put a length of wire in a magnetic field and pass a DC current through it (such as from a battery), the wire will move. This is called the motor effect .

## How a motor works physics?

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 force with a magnet that causes movement or spinning that runs the motor.

## Which law is used in motor?

Faraday’s law of induction is the fundamental law on which electric motors operate.

## What is electric motor in physics?

An electric motor is an electrical machine that converts electrical energy into mechanical energy. Most electric motors operate through the interaction between the motor’s magnetic field and electric current in a wire winding to generate force in the form of torque applied on the motor’s shaft.

## What force makes the coil spin?

A coil of wire becomes an electromagnet when current passes through it. The electromagnet interacts with a permanent magnet, causing the coil to spin.

## What is motor rotation?

Rotation. The direction in which shaft rotates: CW-Clockwise; CCW-Counterclockwise; CW/CCW(Reversible), rotation can be changed by electrical reconnection. Unless stated otherwise inSpecial Features column, rotation is viewed facing shaft end on single-shaft motors, and lead endon double-shaft models.

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## How do you get the direction of force created in motor operation?

The direction of the mechanical force is the literal one.

Then go through the following actions:

1. “Fire the field” out through your index finger.
2. “Feel the force” of the gun recoil up through your thumb.
3. Finally you display your middle finger as you “kill the current”

## How does an electric motor works?

Electric motors work by converting electrical energy to mechanical energy in order to create motion. Force is generated within the motor through the interaction between a magnetic field and winding alternating (AC) or direct (DC) current.

## What is motor effect?

A wire carrying a current creates a magnetic field. This can interact with another magnetic field, causing a force that pushes the wire at right angles. This is called the motor effect.

## What is motor effect and generator effect?

The generator effect is when a current is induced in a wire which is experiencing a changing magnetic field while the motor effect is when a current carrying wire’s magnetic field interacts with the magnetic field around it, resulting in a force being exerted on it, causing it to move.