What is the amount of power delivered by...

What is the amount of power delivered by the ac source in the circuit shown (in watts)

500 watt

1014 watt

1514 watt

2013 watt

Text Solution

Verified by Experts

The correct Answer is:

`I_(1_("rms")) =(E_("rms"))/(sqrt(X_(C)^(2)+R_(1)^(2)))=(130)/(13) =10A`
`i_(2_("rms")) =(E_("rms"))/(sqrt(X_(L)^(2)+R_(2)^(2)))=13 A`
Power dissipated
`=i_(1_("rms"))^(2)R_(1)+R_(2_("rms"))^(2)R_(2)=10^(2)xx5+13^(2)xx6`
=Power delivered by battery
`= 500 + 169 xx 6 = 1514` watt.

Topper's Solved these Questions

DAILY PRACTICE PROBLEM
RESONANCE|Exercise DPP No.54|9 Videos
DAILY PRACTICE PROBLEM
RESONANCE|Exercise DPP No.55|9 Videos
DAILY PRACTICE PROBLEM
RESONANCE|Exercise DPP No.52|9 Videos
CURRENT ELECTRICITY
RESONANCE|Exercise High Level Problems (HIP)|21 Videos
ELECTRO MAGNETIC WAVES
RESONANCE|Exercise Exercise 3|27 Videos

Similar Questions

Explore conceptually related problems

Power delivered by the source of the circuit becomes maximum , when :

In an L-C-R ereis circuit R=150Omega, L=0.0750 H and C=0.0180muF . The source has voltage amplitude V=150V and a frequencey equal to the resonacne frequency of the circuit. (a) What is the power factor ? (b) What is the average power delivered by the source? (c) The capacitor is replaced by one with C=0.0360muF and the source frequency is adjusted to the new resonance value. Then, what is the average power delivered by the source?

The total power dissipated in watts in the circuit shown here is

What is the power factor for the circuit shown ?

A resistance (R), inductance (L) and capacitance (C) are connected in series to an ac source of voltage V having variable frequency. Calculate the energy delivered by the source to the circuit during one period if the operating frequency is twice the resonance frequency.

What is the ratio of powers delivered by 20 V dc and 20 V peak ac to the same load resistance?

Power In An Ac Circuit

The power dissipated in the circuit shown in the is 30 watts. The value of R is

RESONANCE-DAILY PRACTICE PROBLEM-DPP No.53

An AC voltage source V=V0siomegatis connected across resistance R and ...
Text Solution
|
What is the amount of power delivered by the ac source in the circuit ...
Text Solution
|
In youngs double slit experiment, distance between the slits is d and ...
Text Solution
|
From a metallic charged body a current is drawn. The rate of increase ...
Text Solution
|
Two light sources are said to be coherent if they are obtained from
Text Solution
|
Two coherent light sources S1 and S2 (lambda=6000Å) are 1mm apart from...
Text Solution
|
In a certain double slit experimental arrangement interference fringes...
Text Solution
|
A polaroid is placed at 45^@ to an incoming light of intensity I0. Now...
Text Solution
|
An polaroid long cylindrical object with radius R has a charge distrib...
Text Solution
|
If average power absorbed by induction coil (L = 1H) is 1W, then the r...
Text Solution
|
A wedge is placed on a smooth horizontal surface. One side of the wedg...
Text Solution
|
In an electromagnetic wave, the electric field oscillates sinusoidally...
Text Solution
|
A thin uniform wire AB of length 50 cm and resistance 1 Omega is conne...
Text Solution
|
Two radioactive X(1) and X(2) have decay constants 10 lambda and lamb...
Text Solution
|
Two identical capacitor C(1) and C(2) are connected in series with a b...
Text Solution
|
In determine of youggn modulus of ealsticity of wire, a force is appli...
Text Solution
|
A particle starts moving from rest along a straight line at t =0 its a...
Text Solution
|
For a black body at temperature 727^@C, its radiating power is 60 watt...
Text Solution
|
Four pendulums A,B,C and D are suspended from the same elastic support...
Text Solution
|
Figure shows K(alpha)& K(beta) X-rays along with continuous X-ray. Fin...
Text Solution
|