magnetism and currents. a current generates a magnetic field. a magnetic field exerts a force on a...
TRANSCRIPT
Magnetism and CurrentsMagnetism and Currents
Magnetism and Currents
• A current generates a magnetic field.
• A magnetic field exerts a force on a current.
• Two contiguous conductors, carrying currents, will exert forces on each other.
In this section we learn that:
Magnetic Force on Current-Carrying Wire
• We saw that magnetic fields, exert forces on moving charges.
• But moving charges constitute a current
(either in vacuum or inside a conductor)
• Thus, a current-carrying wire will experience a force
when placed in a magnetic field
Magnetic Force on Current-Carrying Wire
If a segment of a wire of length Lcarries a current I, in a region of space where there is a magneticfield B, then the wire experiencesa force F given by:
sin
( ) :
F ILB
Units SI N
The force is perpendicular to the currentaccording to the right hand rule:point fingers in the direction of the current,rotate or close towards magnetic filed, thumb points in the direction of the force
Magnetic Force on Current-Carrying Wire
sin
( ) :
F ILB
Units SI N
A cooper rod 0.15 m in length, and 0.05 kg in mass,is suspended from two thin, flexible wires, in a magnetic field B = 0.550 T, as shown.
Find:a) The directionb) The magnitudeof the current I needed to levitate the rod
Magnetic Forces on a Current Loop
A rectangular current loopin a magnetic field The force on each horizontal segment
is zero (I B).
The force on each vertical segment is F = I L B
The two forces are equal and opposite The loop is not displaced
However the forces exert a torque on the loop The loop will rotate
Magnetic Forces on a Current Loop
The torque exerted by the magnetic force on the loop is:
2 2
w wIhB Ihb
IBhw IBA
In general, for an arbitrary field-loop orientation:
sin
( )
IAB
Units SI N m
For a loop with N turns and area A
sinNIAB
Torque on a Coil
A rectangular coil with 200 turns, is placed in a magnetic field B = 0.35 T.
If the maximum torque is 0.22 N m,what is the current I on the coil?
Magnetic Field Produced by a Current
It was experimentally found that currents produce magnetic fields
For a straight long wire, that carries a current I, the lines of the magnetic field Bcreated by the current, are circles, centered at the wire, and perpendicular to it. The direction of the magnetic field is given by the right hand rule, as shown above.
Magnetic Field Produced by a Current
Ampere’s Law is used to calculate the magnetic fieldproduced by a current (or current-carrying wire)
0 enclosedB L I
Calculated along a closed path
0 = 4x10-7 T m / A = permeability of free space
B|| is the magnetic field parallel to the path
Magnetic Field Produced by a Current
Ampere’s Law
0 enclosedB L I
For an infinite straight wire with current I1. Path is circular loop with radius r
centered at wire and perpendicular to it
2. Segments are L all around the loop3. B lines are circles around the loop
(empirical) so B|| = B all around, and B||L = B 2r
4. Ienclosed = I B 2r = 0 I
1. Define the closed path2. Divide the path in
segments3. Calculate B||L
4. Equate to 0 Ienclosed
0
2
IB
r
Magnetic Field Produced by a Current
For a long straight wire, that carries a current I, the lines of the magnetic field Bcreated by the current, are circles, centered at the wire, and perpendicular to it. The direction of the magnetic field is given by the right hand rule, as shown below.
The magnitude of the magnetic field is: 0
2
IB
r
The wire carries a current of 2.4 Amp. The particle has a charge of 52 C,moves with a speed of 720 m/s and is at a distance of 13 cm from the wire.
Find the force on the particle
Force between two current-carrying wires
I1
I2
d
We know that a current I produces a magnetic field B, at a distance r, given by:
0
2
IB
r
We know that a current I, in a magnetic field B, experiences a force F, given by: sinF ILB
Calculate the force exerted on each other, by two parallelconductors (length L, current I), separated by a distance d.Is the force attractive or repulsive? What happens if one current is reversed?
Magnetic Field of a Current Loop
I
At the center of the loop: 0
2
IB
R
For a loop with N turns: 0
2
N IB
R
Note that the magnetic field of a loop is similar to the magnetic field of a magnet bar
If the currents are in the same direction the twoloops attract each other
If the currents are in opposite directions the two loops repel
Magnetic Forces Between Current Loops
Magnetic Field of a Solenoid
A solenoid is a long wire wound into a succession of closely spaced loops
The magnetic field inside the solenoid is: 0
NB I
L
Ideally, for a very long solenoid,the magnetic field is zero outside the solenoid,and parallel to the axis, and uniform in strength, inside.
Magnetic Field of a Solenoid
What would happen if we place a magnet bar near the solenoid?
A Solenoid.. is a closely wound coil having n turns per unit length.
current flowsout of plane
current flowsinto plane
What direction is the magnetic field?
A Solenoid.. is a closely wound coil having n turns per unit length.
current flowsout of plane
current flowsinto plane
A Solenoid
Consider longer and longer solenoids.
Fields get weaker and weaker outside.
Apply Ampere’s Law to the loop shown.Is there a net enclosed current?In what direction does the field point?What is the magnetic field inside the solenoid?
current flowsout of plane
current flowsinto plane
Apply Ampere’s Law to the loop shown.Is there a net enclosed current?In what direction does the field point?What is the magnetic field inside the solenoid?
current flowsout of plane
current flowsinto plane
B(L) 0 (nLI) Bn 0I
Magnetic Materials
The phenomenon of magnetism is due mainly to the orbital motion of electrons inside materials, as well as to the intrinsic magnetic moment of electrons (spin).
There are three types of magnetic behavior in bulkmatter:
FerromagnetismParamagnetismDiamagnetism
Remind me to ask you:why does the magnet stick to the refrigerator?