A conducting rod of length 1 = 8 (cm] is freeto slide on two parallel conducting bars asshown in the figure. A resistor R 5 [Q] isconnected across the ends of the bar toform a loop. The rod and the bars arelocated in a region that has a magneticfield of magnitude B = 0.57 [T] directed intothe page. An external agent pulls the rod tothe right with a constant speed v = 1 [m/s].1.The magnetic flux throughoutthe loop is:dx = vdtxBinR2.Calculate the value of theinduced emf in the loop.lemf] =[V]3.Calculate the value of theinduced current in the loop.I =V [A]4.Calculate the value of thepower dissipated in the resistor.P =V [W]5.Calculate the magnitude of theapplied force that is needed to move therod with this constant speed.F =M INI

Given: The length of the conducting rod is 8 cm or 0.08 m. The resistance is 5 Ω.…

to slide on two parallel conducting ba shown in the figure. A resistor R = 5 [ connected across the ends of the bar form a loop. The rod and the bars are located in a region that has a magne field of magnitude B = 0.57 (T] directe the page An external agent pulls the

to slide on two parallel conducting ba shown in the figure. A resistor R = 5 [ connected across the ends of the bar form a loop. The rod and the bars are located in a region that has a magne field of magnitude B = 0.57 (T] directe the page An external agent pulls the

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Question

A conducting rod of length 1 = 8 (cm] is free
to slide on two parallel conducting bars as
shown in the figure. A resistor R 5 [Q] is
connected across the ends of the bar to
form a loop. The rod and the bars are
located in a region that has a magnetic
field of magnitude B = 0.57 [T] directed into
the page. An external agent pulls the rod to
the right with a constant speed v = 1 [m/s].
1.
The magnetic flux throughout
the loop is:
dx = vdt
xBin
R
2.
Calculate the value of the
induced emf in the loop.
lemf] =
[V]
3.
Calculate the value of the
induced current in the loop.
I =
V [A]
4.
Calculate the value of the
power dissipated in the resistor.
P =
V [W]
5.
Calculate the magnitude of the
applied force that is needed to move the
rod with this constant speed.
F =
M INI

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