Suppose we have a rectangular loop S, made by a conducting material with N2 = 10 turns and length, a = 30 cm and width b = 28 cm. Now wetake another coil S1 with self inductance L1 and no. of turns N1 and keep it at some distance away from the rectangular loop. We will not be changingthe position of the coil and rectangular loop. The mutual inductance between the coil and the rectangular loop is M = 6mH and the rate of change ofcurrent in the coil Si is 3 A/s.g) Suppose the current in S1 is now I = 2cos (0.0159t) A. Calculate the rate of change of magnetic flux through each turn in S, due to S1, and thenevaluate it at t = 10 s.Note: You have to select the radian mode in your calculator to calculate the value of the trigonometric function.Rate of change in magnetic fluxGive your answer to at least three significance digits.Vi) Calculate the mutually induced emf in S, due to S, when t = 10 s.Mutually induced emf in S, due to S1Give your answer to at least three significance digits.V

Given data: number of turns in S2 is N2 = 10 length a = 30 cm width b = 28 cm mutual inductance M =…

Answered: Suppose we have a rectangular loop S2…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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After being closed for a long time, the switch S in the circuit shown in the figure below is thrown open at t = 0. In the circuit, E = 24.0 V, R = 4.50 kO, Rg = 6.80 k2, and L = 570 mH. RA S ③ roo b a ww RB (a) What is the emf across the inductor immediately after the switch is opened? V (b) When does the current in the resistor Rg have a magnitude of 1.00 mA? S
In your own words, explain why the presence of a ferromagnetic core increases the inductance of a coil. Calculate the inductance of a coil wound on a ferromagnetic cylinder of 2 mm diameter and 10 mm length. There are 200 turns on the coil and the relative permeability of the core is 600. How does a real inductor differ from an ideal component?
.A solenoid of length 15.0 cm with 2500 turns is placed coaxially inside the solenoid. The solenoid is a coil of cross sectional area 4.2 cm² which has 50 turns. What is the mutual inductance of the arrangement? A. 9.9 mH C. 0.89 mH B. 5.0 mH D. 0.44 mH
Please solve
Coil A is a large 300 turn circular coil of radius 77 cm. Circular coil B has 390 turns, a radius of 5 cm and is located L=99 cm from coil A along the same axis. The planes of the two coils are parallel. A) Find the approximate mutual inductance of this pair of coils. for my answer I got 3.527E-10 H which was wrong B) If the current in coil A varies with time according to I=3t3−8t2−1, where I is in amps and t is in s, find the magnitude of the EMF induced in coil B at time t=2 s.
Please do it correctly.
= 10 turns and length, a = 25 cm and width b = 12 cm. Now we Suppose we have a rectangular loop S2 made by a conducting material with N2 take another coil S1 with self inductance L1 and no. of turns N1 and keep it at some distance away from the rectangular loop. We will not be changing the position of the coil and rectangular loop. The mutual inductance between the coil and the rectangular loop is M = 8 mH and the rate of change of current in the coil Si is 17 A/s.
Remove the inductor from the circuit in the figure and set R = 216 Q, C = 18.6 µF, fd = 60.0 Hz, and &m = 36.0 V. What are (a) Z, (b) , and (c) I? 90 R L 000 (a) Number Units (b) Number Units (c) Number Units
Two coils connected as shown in the figure separately have inductances L₁ = 57 mH and L2 = 74 mH. Their mutual inductance is M = 40 mH. What is the inductance of a single coil equivalent to this combination? L₁ L2 N₂ Νι Number i Units
N07

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