I don't understand how to solve this how do I do it Rod Slides Down Inclined PlaneThe figure below shows a conducting rod sliding along a pair of conducting rails. The conducting rails have an angle of inclination of 0 = 31 degrees. There is a resistor at the top of the ramp that connects the two conducting railsR = 2.50. The mass of the rod is 0.34 kg. The rod starts from rest at the top of the ramp at time t = 0. The rails have negligible resistance and friction, and are separated by a distance L = 14 m. There is a constant, verticallydirected magnetic field of magnitude B = 1.2 T.RemfTopViewMitt – tiiteSide ViewFind the emf induced in the rod as a function of its velocity down the rails. What is the emf when the velocity is 1.035E-02 m/s?em f=PowerTerminalSpeedWhat is the rod's terminal speed?vterminal=When the rod moves at its terminal speed, what is the power dissipated in the resistor?power=

Given that Angle of inclination of the ramp, θ=31° Resistance of the Registor ,R =2.5 Ω Mass of the…

Answered: nd the emf induced in the rod as a…

nd the emf induced in the rod as a function of its velocity down the rails. What is the emf when the velocity is 1.035E-

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Question

I don't understand how to solve this how do I do it

Rod Slides Down Inclined Plane
The figure below shows a conducting rod sliding along a pair of conducting rails. The conducting rails have an angle of inclination of 0 = 31 degrees. There is a resistor at the top of the ramp that connects the two conducting rails
R = 2.50. The mass of the rod is 0.34 kg. The rod starts from rest at the top of the ramp at time t = 0. The rails have negligible resistance and friction, and are separated by a distance L = 14 m. There is a constant, vertically
directed magnetic field of magnitude B = 1.2 T.
R
emf
Top
View
Mitt – tiit
e
Side View
Find the emf induced in the rod as a function of its velocity down the rails. What is the emf when the velocity is 1.035E-02 m/s?
em f=
Power
TerminalSpeed
What is the rod's terminal speed?
vterminal=
When the rod moves at its terminal speed, what is the power dissipated in the resistor?
power=

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