In the network shown in fig. , points A,...

In the network shown in fig. , points A, B, and C are at potentials of 70 V, 0, and 10V, respectively.

Point D is at a potential of 40 V

The currents in the sections AD, DB, DC are in the ratio 3:2:1

The currents in the sections AD, DB, DC are in the ratio 1:2:3

The network draws a total power of 200 W.

Text Solution

Verified by Experts

The correct Answer is:

A, B, D

Topper's Solved these Questions

CURRENT ELECTRICITY
RESONANCE|Exercise Exercise-2 (Part-4)|12 Videos
CURRENT ELECTRICITY
RESONANCE|Exercise Exrcies-3(PART-1)|22 Videos
CURRENT ELECTRICITY
RESONANCE|Exercise Exercise-2 (Part-2)|16 Videos
COMMUNICATION SYSTEMS
RESONANCE|Exercise Exercise 3|13 Videos
DAILY PRACTICE PROBLEM
RESONANCE|Exercise DPP.No.71|1 Videos

Similar Questions

Explore conceptually related problems

For the network shown in figure, points A, B and C are at potentials of 70 V, zero and 10 V respectively

In the network shown in fig. , the potential differene across A and B is

In the circuit given here, the points A,B and C are 70 V, zero, 10 V respectively . Then,

A hollow conducting sphere is placed in an electric field produced by a point charge placed at P as shown in figure. Let V_(A), V_(B), V_(C ) be the potentials at points A, B and C respectively. Then

Three uncharged capacitors of capacities C_(1),C_(2) and C_(3) are connected as shown in the figure to one another and the potentials V_(1),V_(2) and V_(3) respectively. Then the potential at O will be .

Three resistance are joined together to form a letter Y, as shown in figure. If the potentials of the terminals A, B and C are 6V, 3V and 2V respectively, then the potential of the point O will be

Three capacitors C_(1),C_(2) and C_(3) are connected as shown in, The potentials of P,Q , and R are V_(1),V_(2), and V_(3) , respectively. Find the potential V_(0) at the function O . .

Two points P and Q are maintained at the potentials of 10V and -4V, respectively. The work done in moving 100 electrons from P to Q is:

Four identical capacitors are connected in series with a 10 V battery as shown in the figure. The point N is earthed. The potentials of points A and B are

RESONANCE-CURRENT ELECTRICITY-Exercise-2 (Part-3)

When no current is passed through a conductor,
Text Solution
|
The current density in a wire is 10A//cm^(2) and the electric field in...
Text Solution
|
A bulb is conneted to an ideal battery of emf 10 V so that the resulti...
Text Solution
|
A cylindrical conductor has length l and area of cross section A. Its ...
Text Solution
|
N cells each of e.m.f. E & internal resistance r are grouped into sets...
Text Solution
|
In the circuit shown in fig. the cell has emf 10V and internal resista...
Text Solution
|
In the network shown in fig. , points A, B, and C are at potentials of...
Text Solution
|
In the circuit shown in figure
Text Solution
|
A battery of emf E and internal resistance r is connected across a res...
Text Solution
|
Potential difference across the terminal of a non ideal battery is
Text Solution
|
A cell of emf epsilon and internal resistance r drives a current i thr...
Text Solution
|
In the given figure, E=12V, R(1)=3Omega, R(2)=2Omega" and "r=1Omega. T...
Text Solution
|
In a potentiometer wire experiment the emf of a battery in the primary...
Text Solution
|
By mistake, a voltmeter is connected in series and an ammeter is conne...
Text Solution
|
A microameter has a resistance of 100 omega and a full scale range of ...
Text Solution
|
Two cells of unequal emfs epsi(1)" and "epsi(2), and internal resistan...
Text Solution
|
Three voltmeeters, all having different resistances, are joined as sho...
Text Solution
|
In the potentiometer arrangement shown, the driving cell D has emf eps...
Text Solution
|
Choose the correct alternatives
Text Solution
|
Which of the following statement/s is/are correct of a source of emf (...
Text Solution
|