Factors Affecting Magnetization
Download
Report
Transcript Factors Affecting Magnetization
Factors that affect the Magnetic field of
an Electromagnet
1.
The core material
2.
The current intensity
3.
The denser the material the
stronger the field
Higher the current stronger
the magnetic field
Number of loops
(number of turns)
More turns gives a stronger
field.
Cores
A Core is the object that is inserted
into the solenoid, creating an
electromagnet.
Different metals can be used for the
core: iron, steel, nickel or cobalt.
Iron is most commonly used because
when you turn off the electricity it
demagnetizes.
Metals like steel remain magnetized
thus creating a permanent magnet.
Do not
want a
permanent
magnet for
the core
Core Material
Ferromagnetic cores strengthen
the magnetic field
Iron, steel, nickel & cobalt
Iron is a VERY GOOD core
Wood, plastic and Aluminum are not
very good products for a core
Number of Loops
As the number of loops increases,
the strength increases
Few loops
Many loops
Current Intensity
As the current intensity increases,
the strength increases
I = 5 amps
I = 10 amps
Which has a stronger magnetic field?
A
B
Iron
Wood
I = 5 amps
I = 5 amps
1 - Number of loops is the same
2 – Intensity is the same
3 – But the core is different
Result:
(A) Iron is better because it is a ferromagnetic core
Which has a Stronger Magnetic Field
A
B
Iron
Iron
I = 2 amps
3 loops
I = 2 amps
5 loops
# of loops are different
Intensity is the same
Core is the same
Result:
B is stronger: more magnetic loops = a stronger magnetic field
Which has a Stronger Magnetic Field
A
B
Iron
Iron
I = 2 amps
5 loops
I = 10 amps
5 loops
# of loops is the same
Intensity is different
Core is the same
Result:
B is stronger because current intensity is greater
Which has a Stronger Magnetic Field
A
B
Nickel
Nickel
I = 2 amps
I = 5 amps
3 loops
5 loops
Whenever the loops & the current intensity are different but
the cores are the same, use the following equation
Strength of field = current intensity x (# of turns)
A 15
=
5 amps
x
3 turns
B 10 =
2 amps
x
5 turns
A therefore has a stronger magnetic field
Mathematical Relationship
To find the strength of the
electromagnet scientists use the
following equation: F = IN
Remember
F is force or strength of the
electromagnet
I is the current intensity traveling
through the wire
N is the number of loops around the
core
Which Electromagnet has the Strongest
Magnetic Field
Current = 10A
Turns = 6
60 = 10A x 6 turns
Current = 7A
Turns = 10
70 = 7A x 10 turns
Strongest
Factors affecting magnetic field:
Core material,
Number of turns
Iron is always the best core material
The more loops the stronger the field
Current Intensity
High current results in stronger intensity
How to Magnetize an Object
Bring the ferromagnetic substance in
contact with another magnet.
Bang the ferromagnetic substance
(example: striking a nail repeatedly).
Heat up the substance and cause
the domains to align.
Run electric current through the
ferromagnetic substance.
Please note that all of these
methods can also de-magnetize a
magnet.