Lecture 10.1 : The Magnetic Field
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1 Lecture 10.1 : The Magnetic Field Lecture Outline: Magnetism Magnetic Field of Moving Charges Magnetic Field of a Current Textbook Reading: Ch March 19,
2 Announcements Homework #8 due on Monday, March 25 in Mastering Physics. Quiz #4 on Thursday. Covers Ch material. 2
3 Last Lecture... Equivalent Resistance for Resistors in Parallel: 1 = R eq R 1 R 2 R N 3
4 Last Lecture... 0 RC Circuit, with open switch. 4
5 Last Lecture... 0 RC Circuit, with open switch. Current flows after the switch is closed. 4
6 Magnetism Magnets are objects that create magnetic fields, and can exert forces on other magnets. Magnetism appears distinct from electric force since all objects involved can be electrically neutral. 5
7 Magnetism Some Properties of Magnets: Magnets have two poles (north and south). Like poles repel, opposites attract. If allowed to rotate, like in a compass, a magnet will align itself in a north-south direction. 6 Some materials are attracted to magnets, some are not.
8 Magnetism Earth itself is a large magnet, with its magnetic poles offset from geographic poles. Earth s magnetic field is due to motion of its molten iron core. 7 Earth s Magnetic Poles Aren t Fixed!
9 Magnetism A brief interruption: Conventions for drawing vectors/currents 8
10 Magnetism Oersted noted in early 1800s that a compass needle would turn if brought near a current-carrying wire. North pole of compasses points along magnetic field direction. Right-hand rule to determine direction of magnetic field. 9
11 Magnetism Properties of Magnetic Field Magnetic field exists at all points in space around current-carrying wire. Magnetic field is a vector with strength (B) and direction determined using right-hand rule. Magnetic field exerts forces on magnetic poles. Force on north pole is parallel to B, force on south pole is opposite B. 10
12 Clicker Question #1 If the bar magnet is flipped over and the south pole is brought near the hanging ball, the ball will be A. Attracted to the magnet. B. Repelled by the magnet. C. Unaffected by the magnet. D. I m not sure. 11
13 Clicker Question #1 If the bar magnet is flipped over and the south pole is brought near the hanging ball, the ball will be A. Attracted to the magnet. B. Repelled by the magnet. C. Unaffected by the magnet. D. I m not sure. 11
14 Magentic Field of Moving Charges Biot-Savart law B point charge = µ 0 4π q v sinθ r 2 Direction from right-hand rule. 1 tesla = 1 T 1 N/A m Permeability Constant: μ 0 = 4π 10-7 T m/a = T m/a 12
15 Magentic Field of Moving Charges To give you some scale for magnetic field strength... NASA satellite view of earth s magnetic field in action...we ll talk more about this behavior soon. 13
16 Magnetic Field of Moving Charges Biot-Savart law rewritten using vector cross product: B point charge = µ 0 4π qv ˆr r 2 The Cross Product: C D = CDsinα Direction from right-hand rule. 14
17 Clicker Question #2 What is the direction of the magnetic field at the position of the dot? A. Into the screen. B. Out of the screen. C. Up. D. Down. E. Left. 15
18 Clicker Question #2 What is the direction of the magnetic field at the position of the dot? A. Into the screen. B. Out of the screen. C. Up. D. Down. E. Left. 15
19 Magentic Field of Moving Charges Example Problem: What is the magnetic field at the position of the dot? 16
20 Magnetic Field of a Current Biot-Savart law applies to a point charge, but we want to know about the magnetic field of many charges, such as in a current. B current segment = µ 0 4π I s ˆr r 2 ( Q)v = Q s t = Q s = I s t 17
21 Magnetic Field of a Current Magnetic Field at a distance d away from a long, straight wire carrying current I (see Example 32.3 for derivation) B wire = µ 0 2π I d Use right-hand rule to determine direction 18
22 Clicker Question #3 Compared to the magnetic field at point A, the magnetic field at point B is A. Half as strong, same direction. B. Half as strong, opposite direction. C. One-quarter as strong, same direction. D. One-quarter as strong, opposite direction. E. Can t compare without knowing I. 19
23 Clicker Question #3 Compared to the magnetic field at point A, the magnetic field at point B is A. Half as strong, same direction. B. Half as strong, opposite direction. C. One-quarter as strong, same direction. D. One-quarter as strong, opposite direction. E. Can t compare without knowing I. 19
24 Magnetic Field of a Current A loop with radius R carries a current I. What is the magnetic field at distance z on the axis of the loop? 20
25 Reminders Homework #8 is due Monday (March 25). Quiz #4 on Thursday. 21
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