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1. In which the experiments with a loop and a harmapet shown in Figure 21.10 an...
1, 2, and 3
1. The square loop of wire of the following figure rotates around the Y-axis by an angle of 90° in a counter-clockwise direction from the position shown. The induced current in the loop a) ) increases and flows from point B to point A b) decreases and flows from point B to point A. c) increases and flows from point A to point B d) decreases and flows from point A to point B e) is...
answer all Q pls
8. A bar magnet is dropped through a loop of copper wire as shown. Recall that ou magnet, magnetic field lines point away from a north pole and toward a south p positive direction of the induced current I in the loop is as shown by the arrows on the loop, the variation of I with time as the bar magnet falls through th by which of the following graphs (the time when the midpoint of...
PROBLEM 3 In the figure a circular loop is shown, which is inside a uniform magnetic field of magnitude 0.200 T that is pointing out of the page. The radius of the loop is initially equal to 30.0 cm, and at t = 0 starts to decrease at a constant rate of 4.00 cm / s until t = 4.00 s. a) Find the magnitude of the emf induced in the loop at t = 2.00 s. b) What is...
Part A A conducting rod is being dragged along conducting rails, as shown in (Figure 1). The magnetic field is directed out of the screen. In what direction does the induced current flow through the light bulb? There is no induced current. The induced current flows through the bulb from the left to the right. The induced current flows through the bulb from the right to the left. Part B A circular loop of conducting wire is moving through a uniform magnetic field, as...
A rectangular loop of wire is placed midway between two long
straight parallel conductors as shown. The conductors initially
carry currents I1
I
1
and I2
I
2
as indicated. Both currents can be assumed to be positive
(i.e. conventional currents initially flow in the directions as
depicted in the figure). If current I1
I
1
is decreasing at a constant rate given by dI1dt
d
I
1
d
t
= -1.0 mA/s and I2
I
2
is constant, then...
course contents EMp- Timer □Notes d Evaluate-Feedback-Print Olnfo Here is a square loop of wire spinning in a constant magnetic field. B=B2 We were unable to transcribe this imageo(t)A 9:12 a s2.lite.msu.edu (a) As the square loop is spinning, the magnetic flux through the loop is constantly changing, which we could represent with the following magnetic flux versus time graph Which of the following points on the graph could represent the instant shown in the icture above? Choose all that...
A. Write Kirchhoff's loop rule (clockwise) for the circuit shown
in (Figure 1).
B. Determine the current in the circuit for the case in which ε1
= 20.0 V, ε2 = 8.0 V, R1 = 30.0 Ω, R2 = 20.0 Ω, and R3 = 10.0
Ω.
C. Using this value of current, start at position A and move
clockwise around the circuit, calculating the electric potential
change across each element in the circuit (be sure to indicate the
sign of...
A solenoid passes through the center of a wire loop, as shown in (Figure 1). The solenoid has 1200 turns, a diameter of 2.0 cm, and is 7.5 cm long. The resistance of the loop is 0.032 Ω. Part A If the current in the solenoid is increased by 1.3 A in 30 ms, what is the induced current in the loop?
Problem 1 (2 marks) A rectangular loop of conducting wire is rotating around the z-axis as shown in Figure 1. The loop is placed inside a magnetic field with A Z flux density of B = Ba, (Wb/m2) in free space. Given the height of wwww the loop is h (m); the width of the loop is (m) and the rotation W angular velocity is o (rad/s), find the induced emf in the closed loop C Figure
Problem 1 (2...
A long straight wire and rectangular thin wire loop shown in the figure below are in the same plane with the geometrical dimensions specified as a=0.444 cm, b=2.75 cm and c=80.5 cm. The total resistance of the wire loop R=1.95 1. The long wire is driven by a triangle-wave generator resulting in the time-dependent current waveform I(t) also depicted in the figure. The magnitude of the waveform Io=13.24 A and the frequency f=56 Hz (temporal period of the waveform T=1/f)....