need help with the bottom e and f In the figure below, an iron bar sitting on two parallel copper rails, connected to each other by a resistor, is pulled to the right with a constant force of magnitude= 1.30 N. The friction between the bar and rails is negligible. The resistance R = 8.00 N, the bar is moving at a constant speed of 2.25 m/s, the distance between theF.apprails is l, and a uniform magnetic field B is directed into the page.RFapp(a) What is the current through the resistor (in A)?0.6046A(b) If the magnitude of the magnetic field is 3.20 T, what is the length e (in m)?0.672m(c) What is the rate at which energy is delivered to the resistor (in W)?2.925W(d) What is the mechanical power delivered by the applied constant force (in W)?2.925WWhat If? Suppose the magnetic field has an initial value of 3.20 I at time t = 0 and increases at a constant rate of 0.500 T/s. The bar starts at an initial position= 0.100 m to the right of the resistor at t = 0, and again moves at a constant speed of 2.25 m/s. Derive time-varying expressions for the following quantities.(e) the current through the 8.00 N resistor R (Use the following as necessary: t. Assume I(t) is in A and t is in s. Do not include units in your answer.)I(t) =0.605 + 0.945tThe magnetic field is increasing linearly with time. Can you find an expression for the magnetic field at any time? Similarly, can you find an expression for thex-position of the bar at any time, knowing it moves at constant speed? Using these, how does the flux through the loop depend on time? From your expression forflux, can you find the emf, and then the current, at any time? A(f)the magnitude of the applied force F,required to keep the bar moving at a constant speed (Use the following as necessary: t. Assume F(t) is in N and t is in s.appappDo not include units in your answer.)(t) =fvF.appHow does the force depend on the current, magnetic field, and length of the bar? Knowing how the magnetic field and the current depend on time, from part (e), canyou find an expression for the force at any time? NNeed Help?Read It

Given data F=1.3 Nv=2.25 m/sR=8 Ω Here, F is the force applied and v is the velocity. While R is the…

Fann = 1.30 N. The friction between the bar and rails is negligible. The resistance R = 8.00 N, the bar is moving at a constant speed of 2.25 m/s, the distance between the rails is e, and a uniform magnetic field B is directed into the page. (a) What is the current through the resistor (in A)? 0.6046 A (b) If the magnitude of the magnetic field is 3.20 T, what is the length e (in m)? 0.672

Fann = 1.30 N. The friction between the bar and rails is negligible. The resistance R = 8.00 N, the bar is moving at a constant speed of 2.25 m/s, the distance between the rails is e, and a uniform magnetic field B is directed into the page. (a) What is the current through the resistor (in A)? 0.6046 A (b) If the magnitude of the magnetic field is 3.20 T, what is the length e (in m)? 0.672

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Question

need help with the bottom e and f

In the figure below, an iron bar sitting on two parallel copper rails, connected to each other by a resistor, is pulled to the right with a constant force of magnitude
= 1.30 N. The friction between the bar and rails is negligible. The resistance R = 8.00 N, the bar is moving at a constant speed of 2.25 m/s, the distance between the
F.
app
rails is l, and a uniform magnetic field B is directed into the page.
R
Fapp
(a) What is the current through the resistor (in A)?
0.6046
A
(b) If the magnitude of the magnetic field is 3.20 T, what is the length e (in m)?
0.672
m
(c) What is the rate at which energy is delivered to the resistor (in W)?
2.925
W
(d) What is the mechanical power delivered by the applied constant force (in W)?
2.925
W
What If? Suppose the magnetic field has an initial value of 3.20 I at time t = 0 and increases at a constant rate of 0.500 T/s. The bar starts at an initial position
= 0.100 m to the right of the resistor at t = 0, and again moves at a constant speed of 2.25 m/s. Derive time-varying expressions for the following quantities.
(e) the current through the 8.00 N resistor R (Use the following as necessary: t. Assume I(t) is in A and t is in s. Do not include units in your answer.)
I(t) =
0.605 + 0.945t
The magnetic field is increasing linearly with time. Can you find an expression for the magnetic field at any time? Similarly, can you find an expression for the
x-position of the bar at any time, knowing it moves at constant speed? Using these, how does the flux through the loop depend on time? From your expression for
flux, can you find the emf, and then the current, at any time? A
(f)
the magnitude of the applied force F,
required to keep the bar moving at a constant speed (Use the following as necessary: t. Assume F
(t) is in N and t is in s.
app
app
Do not include units in your answer.)
(t) =
fv
F.
app
How does the force depend on the current, magnetic field, and length of the bar? Knowing how the magnetic field and the current depend on time, from part (e), can
you find an expression for the force at any time? N
Need Help?
Read It

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