electromagnetisme...2.6 draw sketches to indicate the magnetic field around a straight current...
TRANSCRIPT
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Electromagnetismp. 254
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Hold current carrying conductor in
right hand.
Thumb points in direction of current.
Fingers indicate direction of magnetic field.
X
Right hand rule
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Magnetic field around a wire loop
X
Correct diagram on page 255
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Right hand solenoid rule
Hold solenoid in the right hand.
Thumb indicates direction
of magnetic field (North).
Curled fingers indicate
direction of conventional
current.
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Homework
Exercise 1
p. 260
nos. 2.6, 4
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2.6 Draw sketches to indicate the magnetic field around a straight current carrying conductor when the
current flows …
2.6.1 through the conductor "into" the page, away from you.
2.6.2 through the conductor “out of" the page, towards you.
X
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4.1 Indicate the deviation of the compass needles on Fig. 2.
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4.2 Draw a sketch of the magnetic field pattern for this circular conductor (loop). On your sketch, indicate the
regions where the magnetic field is the strongest, as well as the magnetic poles.
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Faraday’s lawp. 264
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Magnetic field (B) measured in Tesla (T), indicated
by field lines crossing through an area (A)
Magnetic field lines
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ɸ = BɹA
1 Wb = 1 T.m2
Magnetic flux
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ɸ = BAcosθ
Magnetic flux
θ
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A square wire loop with a surface of 1,2 m² crosses through a magnetic field of 0,4 T in different
directions, as shown below. Calculate the magnetic field in each case.
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Electricity is generated when a solenoid
and a magnet move relative to each other.
Electromagnetic
inductionp. 264
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The magnitude of the
induced emf across the
ends of a conductor is
directly proportional to the
rate of change of the
magnetic flux linkage with
the conductor.
Faraday’s law
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I.e. the more field
lines crossed by the
turns of the solenoid
per second, the
stronger the current!
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Lenz’s Law:
The direction of the induced current is such
that it will oppose that which causes it.
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N
N S
N
S N
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• The faster the magnet moves, the stronger
the current.
• The more turns, the stronger the current.
The direction of the current changes if the magnet
moves in the opposite direction.
• The stronger the magnet, the stronger the
current.
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Ɛ = -NΔɸ
Δ𝑡
Induced EMF
EMF (V)
Number of turns
Lenz’s law Change in
magnetic flux
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Homework
Exercise 2
p. 272,
nos. 4, 5, 6, 7, 8, 13
p. 280,
nos. 2.1, 2.4, 3.1, 6
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4
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5. A solenoid with 450 turns has a cross section surface of 176 cm². It is placed perpendicular in
a uniform magnetic field of 0,72 T.
5.1 Calculate the flux through the solenoid.
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5. A solenoid with 450 turns has a cross section surface of 176 cm². It is placed perpendicular in
a uniform magnetic field of 0,72 T.
5.2 Calculate the induced emf if the solenoid is pulled out of the magnetic field in 0,22 s.
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6. A solenoid with 500 turns is rotated such that the magnetic flux linked to each turn changes from
6 x 10¯⁴ Wb to 2 x 10¯⁴ Wb in 1,5 s. Calculate the average emf across the ends of the solenoid.
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7. A square wire coil with each side 180 mm, contains 200 turns. The magnetic field through the
centre of the coil changes from 0 T to 0,8 T in 0,5 s. The total resistance of the coil is 2 Ω.
7.1 Calculate the magnitude of the induced emf when the coil moves into the field and is
perpendicular to the field.
7.2 Calculate the magnitude of the induced current.
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0 - 0,0259
7. A square wire coil with each side 180 mm, contains 200 turns. The magnetic field through the
centre of the coil changes from 0 T to 0,8 T in 0,5 s. The total resistance of the coil is 2 Ω.7.3 What will the magnitude of the emf be if it takes twice as long to move the coil out of the
magnetic field, i.e. 1 s?
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8. One complete loop has a surface of 0,1 m2 and a resistance of 10 Ω. The magnetic field
perpendicular to the surface of the loop originally has a magnitude of 0,2 T and decreases to
zero in a time of 10-4 s. Calculate the following:
8.1 The induced emf
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8. One complete loop has a surface of 0,1 m2 and a resistance of 10 Ω. The magnetic field perpendicular to
the surface of the loop originally has a magnitude of 0,2 T and decreases to zero in a time of 10-4 s.
Calculate the following:
8.2 The induced current
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13. The figure shows a coil with 25 turns and measurements of 0,15 m by 0,2 m. Its plane is perpendicular to
the magnetic field of 0,6 T. The coil rotates 90o in 4,17 x 10-2 s so that its plane is now parallel to the
magnetic field. Calculate the average emf during this time.
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2.1 Determine the direction of the induced current and indicate it on each of the sketches.
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2.4 The N-pole of a bar magnet enters a coil and
then exits again.
2.4.1 Draw a sketch of the coil where the N-pole is
nearing it and show the induced magnetic field
and the direction of the induced current on it.
2.4.2 Draw a sketch of the coil where the N-pole
exits and show the induced magnetic field and
the direction of the induced current on it.
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3.1 The N-pole of a permanent magnet is pushed into the middle of an aluminium ring. It is
found that the ring moves.
Indicate on the diagram the direction of the induced current as well as the direction in which
the ring moves.
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6.1 Indicate the direction of the flow of current in each of the three diagrams and the corresponding
position of the needle of the middle-zero galvanometer.
6.2 In each case, say if the acceleration of the magnet is smaller than, bigger than or equal to the
acceleration due to gravity.