In LC circuit the maximum charge in capacitor is `q_0`. Then maximum value of rate of change of current is

In an oscillating LC circuit the maximum charge on the capacitor is Q. The charges on the capacitor when the energy is stored equally between the electric and magnetic field is

In an oscillating LC circuit the maximum charge on the capacitor is Q. The charges on the capacitor when the energy is stored equally between the electric and magnetic field is

Assertion : Angular frequency of LC oscillations is 2 rad//s and maximum current in the circuit is 1 A . Then, maximum rate of change of current should be 2 A//s . Reason: ((dI)/(dt))_(max)=(I_(max))omega

The maximum value of photoelectric current is called

In an LC circuit the capacitor has maximum charge q_0 . The value of ((dI)/(dt))_(max) is

An L-C circuit contains a 0.60 H inductor and a 25muF capacitor. What is rate of change of current when the charges on the capacitor is 3.0xx10^(-5)C?

An L-C circuit consists of an inductor coil withh L=50.0mH and 20.0muF capacitor. There is negligible resistance in the circuit. The circuit is driven by a voltage source with V=V_0cosomegat . If V_0=5.00mV and the frequency is twice the resonance frequency, determine. a. the maximum charge on the capacitor. b. the maximum current in the circuit. c. the phase relationship between the voltages across the inductor, the capacitor and the sourse.

Assertion In the figure, just after closing the switch the potential drop across inductor is maximum. Reason The rate of change of current just after closing the switch is maximum.

In the given circuit, if initial charge on the capacitor is 100 muC , then the maximum current is (Initially, the inductor is fully deenergized)

An oscillator circuit contains an inductor 0.05 H and a capacitor of capacity 80 mu F . When the maximum voltage across the capacitor is 200 V, the maximum current (in amperes) in the circuit is