Problem Solving: Faraday s Law & Inductance. Faraday s Law
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1 MASSACHUSETTS INSTITUTE OF TECHNOLOGY Department of Physics: 8.02 Problem Solving: Faraday s Law & Inductance Section Table Names Faraday s Law In Chapter 10 of the 8.02 Course Notes, we have seen that a changing magnetic flux induces an emf: dφ ε = dt according to Faraday s law of induction. For a conductor that forms a closed loop, the emf sets up an induced current I = ε / R, where R is the resistance of the loop. To compute the induced current and its direction, we follow the procedure below: (1) For the closed loop of area A, define an area vector A and choose a positive direction. For convenience of applying the right-hand rule, let A point in the direction of your thumb. Compute the magnetic flux through the loop using Φ A ( is uniform) = da ( is non-uniform) (2) Evaluate the rate of change of magnetic flux dφ / dt. Keep in mind that the change could be caused by (i) changing the magnetic field d / dt 0, (ii) changing the loop area if the conductor is moving ( da/ dt 0 ), or (iii) changing the orientation of the loop with respect to the magnetic field ( dθ / dt 0 ). Solving 6a-1
2 Determine the sign of dφ / dt (is the flux increasing or decreasing) (3) The sign of the induced emf is opposite the sign of dφ / dt. The direction of the induced current can be found by using the Lenz s law discussed in Section Problem 1 Falling Loop A rectangular loop of wire with mass m, width w, vertical length l, and resistance R falls out of a magnetic field under the influence of gravity. The magnetic field is uniform and out of the paper ( = î, > 0 within the area shown (see sketch) and zero outside of that area. At the time shown in the sketch, the loop is exiting the magnetic field at speed v(t) = v z (t) ˆk, where v z (t) < 0 (meaning the loop is moving downward, not upward). Suppose at time t the distance from the top of the loop to the point where the magnetic field goes to zero is z( t ) (see sketch). Question 1 What is the relationship between v z (t) and z( t )? e careful of you signs here, remember that z( t ) is positive and decreasing with time, so dz( t) / dt < 0. Solving 6a-2
3 Problem Solving Strategy Step (1): Define A and Compute Question 2: If we define the area vector A to be out of the page, what is the magnetic flux Φ through our circuit at time t (in terms of z( t ), not v z (t) ). Φ Problem Solving Strategy Step (2): Compute dφ / dt Question 3: What is dφ / dt? Is this positive or negative at time t? e careful here, your answer should involve v z (t) (not z( t ) ), and remember that v z (t) < 0. Problem Solving Strategy Step (3): Determine the sign of the induced emf (the same as the direction of the induced current) Question 4: If dφ / dt < 0 then your induced emf (and current) will be right-handed with respect to A, and vice versa. What is the direction of your induced current given your answer to Question 3, clockwise or counterclockwise? Solving 6a-3
4 Question 5: Lenz s Law says that the induced current should be such as to create a selfmagnetic field (due to the induced current alone) which tries to keep things from changing. What is the direction of the self-magnetic field due to your induced current inside the circuit loop, into the page or out of the page? Is it in a direction so as to keep the flux through the loop from changing? Question 6: What is the magnitude of the current flowing in the circuit at the time shown (use I = ε / R )? Question 7: esides gravity, what other force acts on the loop in the ± ˆk -direction? Give the magnitude and direction of this force in terms of the quantities given (hint: d F mag = I d s ). Solving 6a-4
5 Question 8: Assume that the loop has reached "terminal velocity"--that is, that it is no longer accelerating. What is the magnitude of that terminal velocity in terms of given quantities? Question 9: Show that at terminal velocity, the rate at which gravity is doing work on the loop is equal to the rate at which energy is being dissipated in the loop through Joule heating (the rate at which a force does work is F v )? Solving 6a-5
6 Problem 2: Self Inductance, Energy, Induced Electric Fields, and Faraday s Law A wire is wrapped N = 100 times around a cylinder of non-magnetized material of radius a = 3.0cm and length l = cm. At t = 0, the current through the wire is increased according to I(t) = bt, 0 < t < 2s where b = A s -1. Assume the direction of the current through each turn is clockwise when seen from above. After t 2s the current remains constant. A small wire loop of radius r = 1.0cm is placed on the solenoid s axis at the mid point of the solenoid with the normal to the plane of the loop pointing along the solenoid s axis. The loop has resistance R = 5.0 Ω. a) After t 2s, use Ampere s Law to find the direction and magnitude of the magnetic field within the solenoid. (Ignore edge effects). b) Sketch the magnetic field lines everywhere including edge effects. Solving 6a-6
7 c) What is the self-inductance of the solenoid? d) The rate of doing work against the back emf is dw / dt = ε I, where the emf is given by ε = L(dI / dt). How much work is done against the back emf in order to reach a steady current after t 2s in the solenoid? Solving 6a-7
8 e) The stored energy in a magnetic field is equal to U 1 2 magnetic = dv 2µ. How 0 all space much energy is stored in the magnetic field of the solenoid? Do you expect your result to agree or disagree with your answer in part e)? riefly explain your reasoning. f) The changing magnetic flux inside the solenoid produces an induced tangential electric field. During the interval, 0< t < 2s, find an expression for the induced electric field as a function of distance from the central axis of the solenoid. Solving 6a-8
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