The current passing through the battery immediately after key K is closed [it is given that initially all the capacitors are uncharged (given that R = 6 Ω and C = 4 μF)] is:
Sahay Sir > Question Answers > The current passing through the battery immediately after key K is closed [it is given that initially all the capacitors are uncharged (given that R = 6 Ω and C = 4 μF)] is:
The figure below shown a battery with emf 15 V in a circuit with R1 = 30 (Ω), R3 = 20 (Ω and L = 3.0 H. The switch S is initially in the open position and is then closed at time t = 0. Then the graph which shows the correct variation of current through battery after switch S is closed
23
Oct
The figure below shown a battery with emf 15 V in a circuit with R1 = 30 (Ω), R3 = 20 (Ω and L = 3.0 H. The switch S is initially in the open position and is then closed at time t = 0. Then the graph which shows the correct variation of current [...]
There is a conducting ring of radius R. Another ring having current i and radius r(r<<R) is kept on the axis of bigger ring such that its center lies on the axis of bigger ring at a distance x from the center of bigger ring and its plane is perpendicular to that axis. The mutual inductance of the bigger ring due to the smaller ring is
23
Oct
There is a conducting ring of radius R. Another ring having current i and radius r(r<<R) is kept on the axis of bigger ring such that its center lies on the axis of bigger ring at a distance x from the center of bigger ring and its plane is perpendicular to that axis. The mutual [...]
The current passing through the battery immediately after key K is closed [it is given that initially all the capacitors are uncharged (given that R = 6 Ω and C = 4 μF)] is:
23
Oct
The current passing through the battery immediately after key K is closed [it is given that initially all the capacitors are uncharged (given that R = 6 Ω and C = 4 μF)] is: The current passing through the battery immediately after key K is closed [it is given that initially all the capacitors are [...]