# Frequent question: What are the factors that affect electromagnetic induction?

Contents

## What 2 factors affect magnetism?

Factors Affecting the Strength of the Magnetic Field of an Electromagnet: Factors that affect the strength of electromagnets are the nature of the core material, strength of the current passing through the core, the number of turns of wire on the core and the shape and size of the core.

## What two major factors determine the strength of induced voltage?

Voltage strength is proportional to the number of wire turns and magnetic field changes.

## What must change for electromagnetic induction to occur?

What must change in order for electromagnetic induction to occur in a wire coil? The magnetic field through the coil must change. … The induced voltage in a coil is proportional to the number of loops, to the area of the loops, and to the rate of change of the magnetic field through the loops.

## What is the rule of magnetism?

Key Points

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The right hand rule states that, to find the direction of the magnetic force on a positive moving charge, the thumb of the right hand point in the direction of v, the fingers in the direction of B, and the force (F) is directed perpendicular to the right hand palm.

## What factors create the strongest magnetic field?

Different materials produce magnets of different strengths. Those with a high magnetic permeability (which is a measurement of how responsive they are to magnetic fields) make the strongest magnets. For this reason, pure iron is used to make some of the strongest magnets.

## What are the four factors that determine how much voltage is induced by a magnet?

The four main factors that affect the strength of an electromagnet are the loop count, the current, the wire size, and the presence of an iron core.

## What are the three factors that determine induced voltage?

As long as there was motion between the field and the conductor, a voltage could be induced.

The size of the voltage can be varied by three factors:

• The size of the magnetic field. …
• The active length of the conductor. …
• The speed at which the conductor passes through the field.

## Which electromagnet is the strongest?

The strongest continuous magnetic fields on Earth have been produced by Bitter magnets. As of 31 March 2014 the strongest continuous field achieved by a room temperature magnet is 37.5 T produced by a Bitter electromagnet at the Radboud University High Field Magnet Laboratory in Nijmegen, Netherlands.

## How can we induce current in a coil?

Answer: The different ways to induce current in a coil are as follows: (i) If a coil is moved rapidly between the two poles of a horse-shoe magnet, then an electric current is induced in the coil. (ii) If a magnet is moved relative to a coil, then an electric current is induced in the coil.16 мая 2020 г.

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## Why does changing magnetic field induce current?

If a coil of wire is placed in a changing magnetic field, a current will be induced in the wire. This current flows because something is producing an electric field that forces the charges around the wire. (It cannot be the magnetic force since the charges are not initially moving). … that determines the induced current.

## What are the 3 right hand rules?

Some would claim that there is only one right-hand rule, but I have found the convention of three separate rules for the most common situations to be very convenient. These are for (1) long, straight wires, (2) free moving charges in magnetic fields, and (3) the solenoid rule – which are loops of current.

## What is the left hand rule in magnetic fields?

If you point your thumb in the direction of the current, as shown, and let your fingers assume a curved position, the magnetic field circling around those wires flows in the direction in which your four fingers point. The Left Hand Rule shows what happens when an electrical current enters a magnetic field.

## What is the first law of magnetism?

A basic law of magnetism is that unlike poles attract each other. Two bar magnets can illustrate this. One is hung so that it swings freely. A pole of the second is brought, in turn, near each of the two ends of the hanging magnet.