In the figure, a conducting rod of length LLL = 27.0 cmcm moves in a magnetic field B⃗ B→\vec{B} of magnitude 0.430 TT directed into the plane of the figure. The rod moves with speed vvv = 4.00 m/sm/s in the direction shown. (Figure 1)

Part A

Part complete

When the charges in the rod are in equilibrium, which point, a or b, has an excess of positive charge?

a

b

 

 Correct

Part B

Part complete

What is the direction of the electric field in the rod?

from a to b

from b to a

 

 Correct

Part C

Part complete

When the charges in the rod are in equilibrium, what is the magnitude EEE of the electric field within the rod?

Express your answer in volts per meter to at least three significant figures.

View Available Hint(s)

 

EEE =

1.72

V/mV/m

 

 Correct

 

Part D

Part complete

Which point, a or b, has a higher potential?

View Available Hint(s)

 

Which point, a or b, has a higher potential?

a

b

Points a and b have the same potential.

 

 Correct

Part E

What is the magnitude VbaVbaV_ba of the potential difference between the ends of the rod?

Express your answer in volts to at least three significant figures.

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VbaVbaV_ba =	1.08	VV

 

 Incorrect; Try Again; 5 attempts remaining

Part F

What is the magnitude EE of the motional emf induced in the rod?

Express your answer in volts to at least three significant figures.

 

*I am looking for the equation/answer to part E and F but i wanted to add all of it so that it didn't look like an incomplete question.