My Notes Ask Your Teacher 4 6 Points Details Serpse10 30 2 Op 016 In The Figure Below An Iron Bar Sitting On Two 1 (132.59 KiB) Viewed 32 times
MY NOTES ASK YOUR TEACHER 4. [-/6 Points] DETAILS SERPSE10 30.2.OP.016. In the figure below, an iron bar sitting on two parallel copper rails, connected to each other by a resistor, is pulled to the right with a constant force of magnitude F = 1.30 N. The friction between the bar and rails is negligible. The resistance R = 8.00 , the bar is moving at a constant speed of 1.55 m/s, the distance between the rails is , and a uniform magnetic field B is directed into the page. app Fapp (a) What is the current through the resistor (in A)? A (b) If the magnitude of the magnetic field is 2.90 T, what is the length (in m)? m (c) What is the rate at which energy is delivered to the resistor (in W)? W (d) What is the mechanical power delivered by the applied constant force (in W)? www R
(c) What is the rate at which energy is delivered to the resistor (in W)? W (d) What is the mechanical power delivered by the applied constant force (in W)? W What If? Suppose the magnetic field has an initial value of 2.90 T at time t = 0 and increases at a constant rate of 0.500 T/s. The bar starts at an initial position Xo = 0.100 m to the right of the resistor at t = 0, and again moves at a constant speed of 1.55 m/s. Derive time-varying expressions for the following quantities. (e) the current through the 8.00 resistor R (Use the following as necessary: t. Assume I(t) is in A and t is in s. Do not include units in your answer.) I(t) = A (f) the magnitude of the applied force Fapp required to keep the bar moving at a constant speed (Use the following as necessary: t. Assume Fapp(t) is in N and t is in s. Do not include units in your answer.) F Fapp(t) = N
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