the emf across L

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In Figure a, switch S has been closed on A long enough to establish a steady current in the inductor of inductance L 1 = 5.00 mH and the resistor of resistance R 1 = 25.0 Ω .Similarly, in Figure b, switch S has been closed on A long enough to establish a steady current in the inductor of inductance L 2 = 3.00 mH and the resistor of resistance R 2 ​ = 30.0 Ω. The ratio Φ 02 /Φ 01 ​ of the magnetic flux through a turn in inductor 2 to that in inductor 1 is 1.50. At time t = 0, the two switches are closed on B. At what time t is the flux through a turn in the two inductors equal?
22
Oct
In Figure a, switch S has been closed on A long enough to establish a steady current in the inductor of inductance L 1 = 5.00 mH and the resistor of resistance R 1 = 25.0 Ω .Similarly, in Figure b, switch S has been closed on A long enough to establish a steady current [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: and R , and the potential differences across C and R: (a) at the instant after the switch is closed and ( b) long after it is closed. , C , In Figure (a) , in Figure b , switch S has been closed on A long enough to establish a steady current in the inductor of inductance L 1 = 5.00 mH and the resistor of resistance R 1 = 25.0 Ω .Similarly , the emf across L , The open switch in figure is thrown closed at t = 0 . before the switch is closed the capacitor is uncharged and all currents are zero . DEtermine the currents in L ,
The open switch in figure is thrown closed at t = 0 . before the switch is closed the capacitor is uncharged and all currents are zero . DEtermine the currents in L, C , and R, the emf across L, and the potential differences across C and R: (a) at the instant after the switch is closed and ( b) long after it is closed.
21
Oct
The open switch in figure is thrown closed at t = 0 . before the switch is closed the capacitor is uncharged and all currents are zero . DEtermine the currents in L, C , and R, the emf across L, and the potential differences across C and R: (a) at the instant after the [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: and R , and the potential differences across C and R: (a) at the instant after the switch is closed and ( b) long after it is closed. , C , the emf across L , The open switch in figure is thrown closed at t = 0 . before the switch is closed the capacitor is uncharged and all currents are zero . DEtermine the currents in L ,