physics 24100 electricity & opticsjones105/phys24100_fall...source typicalb field (tesla)...
TRANSCRIPT
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Physics 24100
Electricity & OpticsLecture 13 – Chapter 26 sec. 2-4
Fall 2012 Semester
Matthew Jones
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(a) 2 = 3 > 1 (d) 1 > 3> 2
(b) 1 = 2 = 3 (e) 2 > 3 > 1
(c) 3 > 1 > 2
Thursday’s Clicker Question
The figure shows three section of circuit that are to be connected in turn to the same battery via a switch. The resistors are identical, as are the capacitors. Rank the sections according to the final charge (� → ∞) on the capacitor.
(1) (2) (3)
−
+�
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(1) (2) (3)
−
+Thursday’s Clicker Question
As � → ∞, the capacitor acts like an open circuit: no
current will flow through it.
When no current flows through a resistor, there is no
potential difference across it.
Consider the effective circuits as � → ∞…
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(1) (2) (3)
−
+
Thursday’s Clicker Question
In circuit (3), current still flows through the resistor, but this
doesn’t change the potential across the capacitor.
The same potential is reached across all three capacitors.
Capacitance is equal so the charge is also equal.
−
+
−
+
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Bar Magnets
From North to South
N
S
N
S
Attraction
S
N
N
S
Repulsion
• Bar magnet ... two poles: N and S
Like poles repel; Unlike poles
attract.
• Magnetic Field lines: (defined in
same way as electric field lines,
direction and density)
NS
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Magnetic Fields
S N
S N
S N
3
2
1
We draw the magnetic field the same
way we drew electric field lines:
• Density of lines indicates the field
strength
• Lines point from N to S outside the
magnet
• If we cut the magnet in half, we get
two little magnets.
• Inside the magnet, the lines point
from S to N
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Lorentz Force
• The force, ��, on a charge , moving with
velocity � in a magnetic field � is given by:
• If there is also an electric field �, then the
force is
(The “×” is the vector cross-product…)
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Vector Cross Products
• General considerations:
� � × � is always perpendicular to both � and �� If � and � are parallel, then � × � is zero.
• The “right-hand rule” gives you the direction:
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Right Hand Rule
• Fingers go in the direction of �• Thumb points in the direction of �• Then your hand pushes in the direction of ��
(for a positive charge).
�
�
�
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Direction of
��
��
�
�
��
��
��
�
�
�?
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Direction of
��
��
�
�
��
��
��
�
�
� < �
�
��
(out of page)
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Vector Cross Products
• Cross products of unit vectors:
�̂ × �̂ = ���̂ × �� = �̂�� × �̂ = �̂
• Calculate using determinants:
�� × � =�̂ �̂ ��� �! �"� �! �"
= �̂ �!�" − �"�! − �̂ � �" − �"� + �� � �! − �!� • Important relation:
�� × � = −� × ��
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Lorentz Force
• Properties:
� �� is always perpendicular to � and �� The force can change the direction but not the
speed of the charge
� If is positive, �� is in the direction of � × �� If is negative, �� is opposite the direction of � × �� �� is never parallel to �…
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Question
• Two protons move through a region of uniform
magnetic field
• One has twice the initial velocity of the other
• Compare the work done by the magnetic field in
deflecting the electrons
2(1) (2)
(a) $% <$' (b) $% = $' (c) $% > $'
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Question
• The force is always perpendicular to the velocity
• Work done on the charge:
)$ = −�� ∙ )ℓ = 0• The direction changes but the speed stays the same.
2(1) (2)
(a) $% <$' (b) -. = -/ (c) $% > $'
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Force on a Straight Wire
Force on one charge: �� = 0�1 × �Total force: ∑�� = 0 �1 × � 345Current is 6 = 314So the force can be written
�� = 65 × �
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Force on a Wire Segment
• Think of an arbitrary wire as being composed
as many very short, straight pieces:
)�� = 6)ℓ × �• Integrate over the wire: )ℓ
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Force on a Bent Wire
6
�
7
8
9
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Mechanics Problem
• What is the tension in a string used to keep a
mass in uniform circular motion?
�
Acceleration: � = '/;Force: � = <� = <'/;
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Motion in a Uniform Magnetic Field
• For a point charge, �� = � × �• Force is perpendicular to � and �• Magnitude is � = �• This provides the centripetal acceleration:
<'; = �
• Radius of circular motion:
; = <� = =�
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Circular Motion
• Radius of curvature:
; = <� = =�
• Cyclotron period:
> = 2?; = 2? <
�• Cyclotron frequency:
@ = 1> = �
2?<• Angular frequency:
B = 2?@ = �<
All of these depend on the “charge-to-mass” ratio, /<.
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Magnetic Field StrengthSource Typical B field (Tesla)
Interstellar magnetic field 10�CEarth’s magnetic field 5 × 10�EFridge magnet 5 × 10�FElectromagnet 10�'Rare earth magnet 1Magnetic Resonance Imaging
(MRI) machine
2
Superconducting magnets 10Neutron star 10G
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Applications
Bending charged particles in magnetic fields has many
applications in nuclear and particle physics.
• Measuring momentum: = = �;
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Applications
Cyclotrons are relatively small particle accelerators
used for cancer treatment, radioactive isotope
production for cancer therapy and medical research
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Applications
+−
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Applications
• Period is does not depend on velocity:
> = 2? HIJ
−
+
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Applications
• Mass spectrometer: measures /<
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Example
• Separating 6Li and 7Li � = +30• Accelerate across a 10 MV potential:
> = 12<' = L
= 2L<
• Bend in a 1 Tesla magnetic field:
; = <� = 2L</�
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Torque on a Current Loop
• Consider a rectangular loop of wire carrying current 6in a magnetic field.
• The orientation of the loop is given by the unit vector
3M perpendicular to the plane of the loop.
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Torque on a Current Loop
• Magnitude of torque is N = 6��� sin R• Direction is perpendicular to � and 3M:
N� = S� × �S� = 6��3M
��' = 6���̂
��% = −6���̂
8
7
9
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Torque on a Current Loop
• In general, the torque does not depend on the
shape, just the area.
• With T turns of wire in the loop, multiply by T.S� = T643M
N� = S� × �
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Potential Energy
• Work done by the magnetic field:
)$ = −N)R• Loss of potential energy:
)V = −)$ = S� sin R )R• Total change in potential energy:
∆V = X S� sin R )RY
YZ= −S� cos R
• Potential energy of a dipole in a magnetic field:
V = −S� ∙ �
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Question
• A rectangular conductor carries current 6 in a
magnetic field as shown:
• If the charge carriers are electrons, on which surface
will a negative charge accumulate?
(a) Top (b) Bottom (c) Left (d) Right
]
�