A `100 Omega` resistance is connected in series with a `4 H` inductor. The voltage across the resistor is, `V_(R ) = (2.0 V) sin (10^(3) t)`.
Find the inductive reactance

A 100 Omega resistance is connected in series with a 4 H inductor. The voltage across the resistor is, V_(R ) = (2.0 V) sin (10^(3) t) . Find the expression of circuit current

A 100 Omega resistance is connected in series with a 4 H inductor. The voltage across the resistor is, V_(R ) = (2.0 V) sin (10^(3) t) . Find amplitude of the voltage across the inductor.

A 100 Omega resistance is connected in series with a 4 H inductor. The voltage across the resistor is V_(R) = 2 sin (1000 t) V . The voltage across the inductors is

A 100 Omega resistasnce is connected in series with a 4 H inductor. The voltage across the resistor is V_R=(2.0V)sin(10^3 rad//s)t : (a) Find the expessinocircuit current (b) Find the inductive reactance (c) derive an expression for the voltage across the inductor,

A 200 Omega resistor is connected in series with a 5(mu)F capacitor. The voltage across the resistor is V_(R )=(1.20 V) cos (2500 rad s^(-1))t . (a) Derive an expression for the circuit current. (b) Determine the capactive reactance of the capacitor. (c ) derive an experssion for the voltage across the capacitor.

An inductor of inducance 5.0 H, having a negligible resistance, is connected in series with a 100 Omega resistor and a battery of emf 2.0 V. Find the potential difference across the resistor 20 ms after the circuit is switched on.

An alternating voltage is connected in series with a resistance R and inductance L if the potential drop across the resistance is 200V and across the inductance is 150V , then the applied voltage is

A 50 Omega resistor is connected in series to an inductor and a capacitor to an AC source 220 V , 50 Hz . Calculate the value of inductance and capacitance if voltages across resistor inductor and capacitor are 75 V , 210 V and 420 V respectively.

A 120 V, 60 Hz power source is connected across an 800 Omega non inductive resistance and an unkown capacitance in series. The voltage drop across the resistor is 102 V. (a) What is the voltahe drop acorss the capacitor ? (b) What is the reactance of the capacitor ?

A 70 Omega resistor is connected in series to a capacitor and an inductor . The value of capacitive and inductive reactance is 7Omega . The combination is connected to a power supply of 100 V, 50 Hz in series. A voltmeter is connected in parallel across capacitor and inductor as shown in the figure. What will be the reading of the voltmeter?