220 V, 50 Hz, AC source is connected to an inductance of 0.2 Hand a resistance of 20 Ω in series. Whatis the current in the circuit?
3.33 A
33.3 A
5 A
10 A
If we change the value of R, then
voltage does not change on L
voltage does not change on LC combination
voltage does not change on C
voltage changes on LC combination
D.
voltage changes on LC combination
If we change the value of R, then voltage on LC combination changes.
Real power consumption in a circuit is least when it contains.
high R, low L
high R, high L
low R, high L
high R, low C
An inductor (L = 20 H), a resistor (R = 100 Ω) and a battery (E = 10 V) are connected in series. After a long time, the circuit is short-circuited and then the battery is disconnected. Find the current in the circuit at 1 ms after short circuiting.
4.5 x 105 A
3.2x 10-5 A
9.8 × 10-5 A
6.7 × 10-4 A
The magnetic flux through each turn of a coil having 200 turns is given as (t2 1) x 10-3 Wb, where t is in second. The emf induced in the coil at t = 3s is
0.7 V
1.2 V
0.8 V
0.9 V
A beam of light travelling along X-axis is described by the electric field Ev = 600 . sin, the maximum magnetic force on a charge q = 2e, moving along Y-axis with the speed of 3 × 108 m/s is
19.2 × 10-17 N
1.92 × 10-17
0.192
None of these
An L-C-R series circuit with a resistance of 100 Ω is connected to 200 V (AC source) and angular frequency 300 rad/s. When only the capacitor is removed, then the current lags behind the voltage by 60°. When only the inductor is removed the current leads the voltage by 60°. The average power dissipated in original L-C-R circuit is
50 W
100 W
200 W
400 W
In an LCR circuit as shown in figure, both switches are open initially. Now switch S1 is closed, S2 kept open. (q is charge on the capacitor and τ = RC is capacitive time constant). Which of the following statement is correct?
At t = , q = CV ( 1 e-1 )
Work done by the battery is half of the energy dissipated in the resistor
At t = τ, q = CV/2
At t = τ, q = CV ( 1 e-2 )
A circular coil of radius 10 cm, 500 turns and resistance 2 Ω is placed with its plane perpendicular to the horizontal component of the earth's magnetic field. It is rotated about its vertical diameter through 180° in 0.25 s. The
current induced in the coil is
(Horizontal component of the earth's magnetic field at that place is 3.0 x 10-5 T)
1.9 × 10-3 A
2.9 × 10-3 A
3.9 × 10-3 A
4.9 × 10-3 A