CONCLUSION CHAPTER 20 CHAPTER 21 ELECTROMAGNETIC INDUCTION Chapter
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CONCLUSION – CHAPTER 20 & CHAPTER 21 – ELECTROMAGNETIC INDUCTION Chapter 21
Quick Review I B r 2 Magnetism
Force Between Two Current Carrying Conductors First wire produces a magnetic field at the second wire position. The second wire therefore feels a force = Bil 3 Magnetism
Solenoid B=~0 outside 4 Magnetism
The Toroid– B=0 outside 5 Magnetism
A rectangular loop has sides of length 0. 06 m and 0. 08 m. The wire carries a current of 10 A in the direction shown. The loop is in a uniform magnetic field of magnitude 0. 2 T and directed in the positive x direction. What is the magnitude of the torque on the loop? 8 × 10– 3 N × m 6 Magnetism
A solenoid of length 0. 250 m and radius 0. 0250 m is comprised of 440 turns of wire. Determine the magnitude of the magnetic field at the center of the solenoid when it carries a current of 12. 0 A. 2. 21 × 10– 3 T 7 Magnetism
The drawing shows two long, thin wires that carry currents in the positive z direction. Both wires are parallel to the z axis. The 50 -A wire is in the x-z plane and is 5 m from the z axis. The 40 -A wire is in the y-z plane and is 4 m from the z axis. What is the magnitude of the magnetic field at the origin? 3 × 10– 6 T 8 Magnetism
I I 9 Moving On to the next chapter………………. Magnetism
10 INTRODUCTION TO INDUCTION Induction 11/29/2020
11 Important Definition – Magnetic Flux Magnetic Field AREA Induction 11/29/2020
12 Induction 11/29/2020
The Essence of this Topic 13 Consider a conductor that is shaped in a loop but is continuous. The conductor has a magnetic field through the loop that is not necessarily uniform. There is a MAGNETIC FLUX through this loop. If the FLUX CHANGES, an “emf” will be induced around the loop. This emf can cause a current to flow around the loop. Induction 11/29/2020
14 How Can You Change the Magnetic Flux Going Through The Loop? Huh? Divide the area of the loop into a very large number of small areas DA. Find the Magnetic Field through each area as well as the angle that it makes with the normal to the area. Compute the total flux through the loop. Induction 11/29/2020
The Magnetic Flux Going Through The Loop: 15 Add up all of these pieces that are INSIDE the loop. Induction 11/29/2020
Changing F 16 Change any or all of the Bi DAi fi Change the SHAPE of the loop Change the ANGLE that the loop makes with the magnetic field (subset of above) And the Flux will change! Induction 11/29/2020
WAIT A SECOND ……. 17 You said that there is a conducting loop. You said that there is therefore a VOLTAGE or emf around the loop if the flux through the loop changes. But the beginning and end point of the loop are the same so how can there be a voltage difference around the loop? ‘tis a puzzlement! Induction 11/29/2020
18 Induction 11/29/2020
19 REMEMBER when I said E Fields start and end on CHARGES? ? ? DID I LIE? ? Induction 11/29/2020
The truth 20 Electric fields that are created by static charges must start on a (+) charge and end on a (–) charge as I said previously. Electric Fields created by changing magnetic fields can actually be shaped in loops. Induction 11/29/2020
21 Why do you STILL think I am a liar? Because you said that an emf is a voltage so if I put a voltmeter from one point on the loop around to the same point, I will get ZERO volts, won’t I Induction 11/29/2020
22 Induction 11/29/2020
23 The POTENTIAL between two points Is the WORK that an external agent has to do to move a unit charge from one point to another. But we also have (neglecting the sign): Ds Induction 11/29/2020
So, consider the following: 24 x x x x x x x x x x x E Conductor Induction 11/29/2020
25 THEREFORE WHAT WILL A VOLTMETER READ FROM A to A? x x x x x x x x x x x E A B C The emf Zero Can’t tell A Conductor Induction 11/29/2020
How Big is the emf? 26 Faraday’s Law MINUS? ? Michael Faraday (1791 -1867) Induction 11/29/2020
27 Q: Which way does E point? A: The way that you don’t want it to point! (Lenz’s Law). Lenz’s Law Explains the (-) sign! Induction 11/29/2020
28 OK. LET’S DO THE PHYSICS NOW Induction 11/29/2020
29 Induction 11/29/2020
Is there an induced current? ? ? 30 Induction 11/29/2020
Induction Effects
Faraday’s Experiments ? ?
Insert Magnet into Coil
Remove Coil from Field Region
Summary
Does the Flux Change? 36 11/29/2020
37 In the Previous Example, if there are N coils rather than a single coil, A B C The current is increased by a factor of N The current is decreased by a factor of N The current stays the same. Induction 11/29/2020
38 Push a magnet into a coil of two wires and a current is produced via an emf. In this case, 2 coils, each has the SAME emf. Ohm’s Law still works, so Induction 11/29/2020
39 If we go from 2 to 4 coils, the current A B C D Induction Stays the same Doubles Is halved Is four times larger 11/29/2020
40 A rectangular circuit containing a resistor is perpendicular to a uniform magnetic field that starts out at 2. 65 T and steadily decreases at 0. 25 T/s. While this field is changing, what does the ammeter read? Induction 11/29/2020
• • The conducting rod ab shown makes frictionless contact with metal rails ca and db. The apparatus is in a uniform magnetic field of 0. 800 T, perpendicular to the plane of the figure. (a) Find the magnitude of the emf induced in the rod when it is moving toward the right with a speed 7. 50 m/s. 41 Induction 11/29/2020
Application: AC Voltage Generator 42 Induction 11/29/2020
Almost DC 43 Induction 11/29/2020
THE STRANGE WORLD OF DR. LENTZ
LENZ’S LAW Induced Magnetic Fields always FIGHT to stop what you are trying to do! i. e. . . Murphy’s Law for Magnets
Example of Nasty Lenz The induced magnetic field opposes the field that does the inducing!
Don’t Hurt Yourself! The current i induced in the loop has the direction such that the current’s magnetic field Bi opposes the change in the magnetic field B inducing the current.
Let’s do the Lentz Warp again !
Again: Lenz’s Law An induced current has a direction such that the magnetic field due to the current opposes the change in the magnetic flux that induces the current. (The result of the negative sign that we always leave out!) … OR The toast will always fall buttered side down!
What Happens Here? Begin to move handle as shown. Assume a resistance R in the loop. Flux through the loop decreases. Current is induced which opposed this decrease – current tries to re-establish the B field.
What about a SOLID loop? ? Energy is LOST BRAKING SYSTEM METAL Pull
A cardboard tube is wrapped with two windings of insulated wire, as shown. Is the induced current in the resistor R directed from left to right or from right to left in the following circumstances? The current in winding A is directed (a) from a to b and is increasing, (b) from b to a and is decreasing, (c) from b to a and is increasing, and (d) from b to a and is constant. left 53 Induction right 11/29/2020
Mutual inductance – Circulation of currents in one coil can generate a field in the coil that will extend to a second, close by device. Suppose i 1 CHANGES Flux Changes Current (emf) is induced in 2 nd coil.
The two coils 55 Remember – the magnetic field outside of the solenoid is pretty much zero. Two fluxes (fluxi? ) are the same! Induction 11/29/2020
Self-inductance – Any circuit which carries a varying current selfinduced from it’s own magnetic field is said to have INDUCTANCE (L).
57 An inductor resists CHANGES in the current going through it. Induction 11/29/2020
58 An inductor resists CHANGES in the current going through it. Induction 11/29/2020
59 An inductor resists CHANGES in the current going through it. Induction 11/29/2020
Inductance Defined 60 If the FLUX changes a but during a short time Dt, then the current will change by a small amount Di. This is actually a calculus equation Faraday says this is the emf! Induction 11/29/2020
So … 61 There should be a (-) sign but we use Lenz’s Law instead! E= The UNIT of “Inductance – L” of a coil is the henry. SYMBOL: Induction 11/29/2020
62 Induction 11/29/2020
Consider “AC” voltage 63 Minimum Change/Dt V 1 Maximum Change/Dt Induction 11/29/2020
The transformer 64 FLUX is the same through both coils (windings). Induction 11/29/2020
65 Induction 11/29/2020
66 Induction 11/29/2020
67 Input/Output Impedance (Resistance) Induction 11/29/2020
68 Read in the textbook section 21. 10: Induction 11/29/2020
Energy associated with an induced current. As energy is introduced at induces a field, energy is stored in an electronic device. Refer to worked example 21. 12 in your text.
The R-L circuit – Figure 21. 29 When an inductor is part of a wired circuit, - voltages, currents and capacitor charges are a function of time, not constants. Refer to worked example 21. 13 in your text.
The L-C circuit – Figure 21. 34 When an inductor is part of a wired circuit with a capacitor, the capacitor charges over time. Commonly used in radio as a tuner for the induced current from an antenna.
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