in the network of three cells, find the ...

in the network of three cells, find the potential V of their funcion.

Text Solution

Verified by Experts

Applying KCL for the individual branches, we get
`20 - i_1(2) +10 = V (i)`
`0 - i_2((1)/(2)) - 8 =V (ii)`
`-15 - i_3(1) -6 =V (iii)`
`ik_1 +i_2+i_3 = 0 (iv)`
Putting `i_1, i_2, and i_3` from Eqs. (i),
(ii) and (iii) in Eq. (iv). we have
`(30 -V)/(2) +(V+8)/( - 1//2) +(V +21)/(-1) = 0`
or ` V = -(44)/(7)V`

Topper's Solved these Questions

ELECTRIC CURRENT AND CIRCUIT
CENGAGE PHYSICS ENGLISH|Exercise Subjective|29 Videos
ELECTRIC CURRENT AND CIRCUIT
CENGAGE PHYSICS ENGLISH|Exercise Single Correct|72 Videos
ELECTRIC CURRENT AND CIRCUIT
CENGAGE PHYSICS ENGLISH|Exercise Exercise 5.1|28 Videos
ELECTRIC CURRENT & CIRCUITS
CENGAGE PHYSICS ENGLISH|Exercise Kirchhoff s law and simple circuits|15 Videos
ELECTRIC FLUX AND GAUSS LAW
CENGAGE PHYSICS ENGLISH|Exercise MCQ s|38 Videos

Similar Questions

Explore conceptually related problems

In the network shown in given figure, find the potential difference across BD

In the network shown in given figure , find the potential differene across BD.

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 . .

For the network of capacirors as shown in figure. . a. Find the potential of junction B . b. Find the potential of function D, c. Find the charge on 2 muF capacitor.

In the network shown in the figure, the potential difference between A and B is :

Figure 7.37 shows a network of three resistances. When some potential difference is applied across the network , thermal powers dissipated by A, B and C are in the ratio

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

In a network as shown in the figure , the potential difference across the resistance 2 R is (the cell has emf E - volt and no internal resistance )

A battery is designed by connecting four cells, each of emf 1.5 V and resistance 2.0 ohm in parallel. If this battery is now connected to an resistance of 2.5 ohm, find the potential drop across the terminal of the cells.

A cell of emf E is connected across a resistance R. The potential difference between the terminals of the cell is found to be V. The internal resistance of the cell must be -

CENGAGE PHYSICS ENGLISH-ELECTRIC CURRENT AND CIRCUIT-Exercise 5.2

In the follwing circuit , the potential difference betweenn P and Q si
Text Solution
|
Find the current in each wire.
Text Solution
|
in the network of three cells, find the potential V of their funcion.
Text Solution
|
In the circuit shown in fig the voltage across the 2 Ω resistor is 1...
Text Solution
|
In the circuit shown in fig the voltage across the 6Omega resistor is ...
Text Solution
|
In the circuit shown in fig a. find the current in resistor R b. f...
Text Solution
|
In the circuit shown in figure find: a. the current in the 3.00 Om...
Text Solution
|
In the circuit shown in figure , a. find the current is each branch ...
Text Solution
|
Consider the circuit shown in fig. If the switch is closed at t =0, th...
Text Solution
|
Shown three sections of the circuit that are to be connecte in turn to...
Text Solution
|
Determine the current through the battery in the circuit shown in figu...
Text Solution
|
A varying voltage is applied to the clamps AB as shown in fig. such th...
Text Solution
|
Consider the network shown in initially, the switch S(1) is closed and...
Text Solution
|
In the circuit shown in fig. R(1) = 10 Omega, R(2) = 5 Omega, C(1) = 1...
Text Solution
|
In the circuit shown in fig switch S is closed at time t =0. a. ...
Text Solution
|
The plates of a 50(mu)F capacitor charged to 400(mu)C are connected th...
Text Solution
|
The electric field between the plates of a parallel-plate capacitor of...
Text Solution
|
The time constant of and R- C cirucit during charging is them time in ...
Text Solution
|
How many time constants will elapse before the energy stored in the ca...
Text Solution
|
How many time constant will elapse before the power delivered by the b...
Text Solution
|