What is e(0), the emf induced in the moving wire at t = 0? Define the emf to be positive if the potential at point a is higher than that at point b. Submit 9 What is e(t1), the emf induced in the moving wire at t = t1 = 2 s? Define the emf to be positive if the potential at point a is higher than that at point b. Submit ) The wire is now replaced by a conducting rectangular loop as shown. The loop has length L = 56 cm and width W = 15 cm. At time t = 0, the loop moves with velocity v = 14 cm/s with its left end located a distance d% 3 41 cm from the y-axis. The resistance of the loop is R = 1.7 0. What is i(0), the

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Chapter1: Units, Trigonometry. And Vectors
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An infinite straight wire carries current I1 =
4.3 A in the positive y-direction as shown.
At time t = 0, a conducting wire, aligned
with the y-direction is located a distance d
= 41 cm from the y-axis and moves with
velocity v = 14 cm/s in the negaitve x-
direction as shown. The wire has length W
= 15 cm.
1) What is ɛ(0), the emf induced in the moving wire at t = 0? Define the
emf to be positive if the potential at point a is higher than that at point b.
V Submit
2) What is ɛ(t,), the emf induced in the moving wire at t = tj = 2 s? Define
the emf to be positive if the potential at point a is higher than that at
point b.
V Submit
3) The wire is now replaced by a conducting
rectangular loop as shown. The loop has
length L = 56 cm and width W = 15 cm. At
time t = 0, the loop moves with velocity v =
14 cm/s with its left end located a distance
d = 41 cm from the y-axis. The resistance
of the loop is R = 1.7 Q. What is i(0), the
induced current in the loop at time t = 0?
Define the current to be positive if it flows
in the counter-clockwise direction.
L
A Submit
4) Suppose the loop now moves in the
positive y-direction as shown. What is the
direction of the induced current now?
4V
w
O The current flows counterclockwise
O The current flows clockwise
O There is no induced current now
Submit
5)
Suppose now that the loop is rotated 90°
and moves with velocity v = 14 cm/s in the
positive x-direction as shown. What is l2,
the current in the infinite wire, if the
induced current in the loop at the instant
shown (d = 41 cm) is the same as it was in
the third part of this problem (i.e., when the
left end of loop was at a distance d = 41
cm from the y-axis)?
W
d.
A Submit
Transcribed Image Text:An infinite straight wire carries current I1 = 4.3 A in the positive y-direction as shown. At time t = 0, a conducting wire, aligned with the y-direction is located a distance d = 41 cm from the y-axis and moves with velocity v = 14 cm/s in the negaitve x- direction as shown. The wire has length W = 15 cm. 1) What is ɛ(0), the emf induced in the moving wire at t = 0? Define the emf to be positive if the potential at point a is higher than that at point b. V Submit 2) What is ɛ(t,), the emf induced in the moving wire at t = tj = 2 s? Define the emf to be positive if the potential at point a is higher than that at point b. V Submit 3) The wire is now replaced by a conducting rectangular loop as shown. The loop has length L = 56 cm and width W = 15 cm. At time t = 0, the loop moves with velocity v = 14 cm/s with its left end located a distance d = 41 cm from the y-axis. The resistance of the loop is R = 1.7 Q. What is i(0), the induced current in the loop at time t = 0? Define the current to be positive if it flows in the counter-clockwise direction. L A Submit 4) Suppose the loop now moves in the positive y-direction as shown. What is the direction of the induced current now? 4V w O The current flows counterclockwise O The current flows clockwise O There is no induced current now Submit 5) Suppose now that the loop is rotated 90° and moves with velocity v = 14 cm/s in the positive x-direction as shown. What is l2, the current in the infinite wire, if the induced current in the loop at the instant shown (d = 41 cm) is the same as it was in the third part of this problem (i.e., when the left end of loop was at a distance d = 41 cm from the y-axis)? W d. A Submit
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