Home
Class 12
PHYSICS
If V(S)(t)=220sqrt2 sin (2pi 50 t), find...

If `V_(S)(t)=220sqrt2 sin (2pi 50 t)`, find (a)i(t) ,(b)V(R) and (c )V(C)(t)

Text Solution

AI Generated Solution

To solve the problem step-by-step, we will find the current \( i(t) \), the voltage across the resistor \( V_R(t) \), and the voltage across the capacitor \( V_C(t) \) based on the given voltage source \( V_S(t) = 220\sqrt{2} \sin(2\pi 50t) \). ### Step 1: Identify the given voltage source The voltage source is given as: \[ V_S(t) = 220\sqrt{2} \sin(2\pi 50t) \] From this, we can identify: ...
Promotional Banner

Similar Questions

Explore conceptually related problems

When a voltage V_(s)=200 sqrt(2) sin (100 t) V is applied to an ac circuit the current in the circuit is found to be i=2 sin [omega t + (pi//4)]A . Find the average power consumed in the circuit.

When a voltage V_(s)=200 sqrt(2) sin (100 t) V is applied to an ac circuit the current in the circuit is found to be i=2 sin [omega t + (pi//4)]A . Find the average power consumed in the circuit.

In an RC series circuit(in fig), the rms voltage of source is 200V and its frequency is 50 Hz, if R=100 Omega and C=(100)/(pi) muF , find (a) inpedance of the circuit. (b) power factor angle, (c ) power factor, (d) current, (e) maximum current (f) voltage across R, (g) voltage across C, (h) maximum voltage across R, (i) maximum voltage across C, (j) ltPgt , (k) ltP_(R )gt . (l) ltP_(C )gt (m) i(t) , V_(R )(t),and V_(C)(t) .

In the figure show, find v, t_(op) and R .

If the voltage in an ac circuit is represented by the equation, V= 220sqrt2 sin(314t-phi) V. Calculate (a) peak and rms.value of the voltage (b) average voltage (c) frequency of AC

In an L-C -R series circuit connected to an AC source V=V_(0)sin(100pi(t)+(pi)/(6)) V_(R)=40V, V_(L)=40 and V_(C )=10V , resistance R=4Omega peak value of current is

Following are equations of four waves : (i) y_(1) = a sin omega ( t - (x)/(v)) (ii) y_(2) = a cos omega ( t + (x)/(v)) (iii) z_(1) = a sin omega ( t - (x)/(v)) (iv) z_(1) = a cos omega ( t + (x)/(v)) Which of the following statements are correct ?

Following are equations of four waves : (i) y_(1) = a sin omega ( t - (x)/(v)) (ii) y_(2) = a cos omega ( t + (x)/(v)) (iii) z_(1) = a sin omega ( t - (x)/(v)) (iv) z_(1) = a cos omega ( t + (x)/(v)) Which of the following statements are correct ?

The velocities of sound in an ideal gas at temperature T_(1) and T_(2) K are found to be V_(1) and V_(2) respectively. If ther.m.s velocities of the molecules of the same gas at the same temperatures T_(1) and T_(2) are v_(1) and v_(2) respectively then

The velocities of sound in an ideal gas at temperature T_(1) and T_(2) K are found to be V_(1) and V_(2) respectively. If ther.m.s velocities of the molecules of the same gas at the same temperatures T_(1) and T_(2) are v_(1) and v_(2) respectively then