Datasheet-1

ManualsBrandsElenco ManualsElectronic ExperimentationSnap Circuits STEM Kit

About Your Snap Circuits

Parts

How does electricity turn the shaft in the motor?

The answer is magnetism. Electricity is closely

related to magnetism, and an electric current

flowing in a wire has a magnetic field similar to

that of a very, very tiny magnet. Inside the motor

is a coil of wire with many loops wrapped around

metal plates. This is called an electromagnet. If

a large electric current flows through the loops,

it will turn ordinary metal into a magnet. The

motor shell also has a magnet on it. When elec-

tricity flows through the electromagnet, it repels

from the magnet on the motor shell and the shaft

spins. If the fan is on the motor shaft, then its

blades will create airflow.

The meter (M5) is an important measuring de-

vice. You will use it to measure the voltage (elec-

trical pressure) and current (how fast electricity

is flowing) in a circuit.

The electrical symbol for a meter is shown below.

The meter measures voltage when connected in

parallel to a circuit and measures the current

when connected in series in a circuit.

This meter has one voltage scale (5V) and two

current scales (1mA and 1A). These use the

same meter but with internal components that

scale the measurement into the desired range.

This will be explained more later. Note: Your M5

meter is a simple meter. Don’t expect it to be as

accurate as normal electronic test instruments.

The motor (M1) converts electricity into mechan-

ical motion. An electric current in the motor will

turn the shaft and the motor blades, and the fan

blade if it is on the motor. The electrical symbol

for a motor is also shown here.

METER

MOTOR

Meter Symbol

Magnet

Coil

Pointer

Contacts

Motor Symbol

Magnet

Electromagnet

Shaft

Power Contacts

Shell

Meter (M5)

Motor (M1)

Inside the meter there is a fixed magnet and a

moveable coil around it. As current flows through

the coil, it creates a magnetic field. The interac-

tion of the two magnetic fields causes the coil

(connected to the pointer) to move (deflect).

Glow-in-the-dark Fan

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