Current in `R_(3)`

In the circuit shown in figure : R = 10 Omega , L = (sqrt(3))/(10) H, R_(2) = 20 Omega and C = (sqrt(3))/(2) mF . Current in L - R_(1) circuit is I_(1) in C - R_(1) circuit is I_(2) and the main current is I At some instant current in L - R_(1) circuit is 10 A . At the same instant current in C - R_(2) branch will be

In the circuit shown in figure : R = 10 Omega , L = (sqrt(3))/(10) H, R_(2) = 20 Omega and C = (sqrt(3))/(2) mF . Current in L - R_(1) circuit is I_(1) in C - R_(1) circuit is I_(2) and the main current is I Phase difference between I_(1) and I_(2) is

In the circuit shown in figure : R = 10 Omega , L = (sqrt(3))/(10) H, R_(2) = 20 Omega and C = (sqrt(3))/(2) mF . Current in L - R_(1) circuit is I_(1) in C - R_(1) circuit is I_(2) and the main current is I Phase difference between I_(1) and I_(2) is

A sinusoidal ac current flows through a resistor of resistance R . If the peak current is I_(p) , then the power dissipated is

A sinusoidal ac current flows through a resistor of resistance R . If the peak current is I_(p) , then the power dissipated is

In the given circuit E_1 = 3E_2 = 2E_3 = 6 volts R_1 = 2R_4 = 6Omega R_3 = 2R_2 = 4Omega C = 5 muf. Find the current in R and the energy stored in the capacitor.

In the circuit shown in figure Current through R_(2) is zero if R_(4) = 2 Omega and R_(3) = 4 Omega In this case

The r.m.s current in an AC circuit is 2A . If the wattless current be sqrt(3)A , what is the power factor?

A cell supplies a current i_(1) trhough a resistnace R_(1) and a current i_(2) through a resistance R_(2) . The internal resistance of this cell is

In the circuit shown in the figure (A), R_(3) is a variable resistance As the value R_(3) is changed, current I though the cell varies as shown. Obvioulsy, the variation is asymptotic, i.e. Irarr6A as R_(3)rarroo . Resistance R_(1) and R_(2) are, respectively