A direct current generator is constructed by having a metal car traveling around a set of perfectly conducting rails forming a large circle. The rails are L 10 cm apart and there is a uniform field B = 1.0 T normal to their plane. The car has a mass m = 1.0 kg; it is driven by a rocket engine having a constant thrust Fo = 100 N; and a resistor R = 10 N acts as an electrical load. Find the induced voltage as a function of time. Also. Find the value of the voltage after the generator has reached steady-state conditions.
A direct current generator is constructed by having a metal car traveling around a set of perfectly conducting rails forming a large circle. The rails are L 10 cm apart and there is a uniform field B = 1.0 T normal to their plane. The car has a mass m = 1.0 kg; it is driven by a rocket engine having a constant thrust Fo = 100 N; and a resistor R = 10 N acts as an electrical load. Find the induced voltage as a function of time. Also. Find the value of the voltage after the generator has reached steady-state conditions.
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Transcribed Image Text:A direct current generator is constructed by having a metal car traveling around a
set of perfectly conducting rails forming a large circle. The rails are L = 10 cm apart and there is a
uniform field B = 1.0 T normal to their plane. The car has a mass m = 1.0 kg; it is driven by a rocket
engine having a constant thrust Fo = 100 N; and a resistor R = 10 n acts as an electrical load. Find
the induced voltage as a function of time. Also. Find the value of the voltage after the generator has
reached steady-state conditions.
R.
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