An LR circuit having `L = 4.0 H, R = 1.0 Omega and epsilon = 6.0 V` is switched on at `t = 0`. find the power dissipated in joule heating at `t = 4.0 s`.

In LC oscillator circuit, at t = 0, ……

In an L-C-R circuit, L = 8H, C = 0.5 mu F, R = 100 Omega connected in series. The resonance frequency of the circuit will be …....

An emf of 20 V is applied at time t = 0 to a circuit containing in series 10 mH inductor and 5 Omega resistor. The ratio of the currents at time t = oo and t = 40 s is close to (take e^2 = 7.389)

A sinusoidal voltage of peak value 283 V and frequency 50 Hz is applied to a series LCR circuit in which R=6 Omega , L=50.96 mH and C=398 muF . Find the power dissipated in the circuit

An inductor (L = 0.03 H) and a resistor (R = 0.15 kOmega ) are connected in series to a battery of 15 V EMF in a circuit shown below The key K_1 has been kept closed for a long time. Then at t = 0, K_1 is opened and key K_2 is closed simultaneously. At t = 1 ms, the current in the circuit will be : (e^5 cong 150)

An LCR series circuit with L =0.5H, C=10xx10^(-6) F, R=100 Omega is connected to an A.C. source of frequency of 50 Hz. The impedance of the circuit is …….

The positon of an object moving along x-axis is given by x(t) = (4.2 t ^(2) + 2.6) m, then find the velocity of particle at t =0s and t =3s, then find the average velocity of particle at t =0 s to t =3s.

Suppose the loop is stationary but the current feeding the electromagnet that produces the magnetic field is gradually reduced so that the field decreases from its initial value of 0.3 T at the rate of 0.02 T s^(-1) . If the cut is joined and the loop has a resistance of 1.6 Omega , how much power is dissipated by the loop as heat ? What is the source of this power ?

The position of a particle is given by r=3.0thati+2.0t^(2)hatj+5,0hatk where t is in seconds and the coefficients have the proper units for r to be in matres. (a) Find v (t) and a(t) of the particle . (b) Find the magnitude and direction of v (t) at t=1.0 s.