An infinite ladder is constructed with 1...

An infinite ladder is constructed with `1(Omega)`and `2(Omega)`resistor as shown in figure.(a)Find the effective resistance between the point A and B. (b) Find the current that passes through the `(2 Omega)` resistor nearest to the battery.

Text Solution

Verified by Experts

Let the equivalent resistance of the
combination be R .
So, (2R/(r+2)+1 = R
` 3R + 2 = R^2 + 2R `
` rArr R^2 - R - 2 = 0 `
` rArr R = (+1+(sqrt(1+4.12))/2.1)`
` = (+1+(sqrt(9))/2.1) = 2 Omega`
(b) Total current send by battery
` = -6/R_eff = 6/2 = 3 `
Potential difference between A and B
` 3.1 + 2i = 6 `
` rArr 2i = 3 `
` rArr i = 3/2 = 1.5A ` .

Topper's Solved these Questions

ELECTRIC CURRENT IN CONDUCTORS
HC VERMA|Exercise Objective 2|9 Videos
DISPERSION AND SPECTRA
HC VERMA|Exercise Exercises|11 Videos
ELECTRIC CURRENT THROUGH GASES
HC VERMA|Exercise Exercises|23 Videos

Similar Questions

Explore conceptually related problems

Find the effective resistance between points A and B for the network shown in the figure below.

A wire of 18 Omega resistor is bent in a circle. Find effective resistance between A and B. angle AOB = 60^(@)

Five resistance, each of 5Omega are connected as shown in figure. Find the equivalent resistance between points (1) A and B , (2) A and C .

Each resistance is of 1Omega in the circuit diagram shown in figure. Find out equivalent resistance between A and B.

Find out the magnitude of resistance X in the circuit shown in figure, When no current flows through the 5 Omega resistance

A wire has resistance of 24 Omega is bent in the following shape. The effective resistance between A and B is

When 10 A current passes through 12 Omega resistance, maximum voltage across it is ……..

Calculate the current flows through resistance 2Omega .

In the network shown in the figure the equivalent resistance between points X anx Y will be ..... Omega . Value of each resistance is 2 Omega .

A cube is constructed by connecting 12 wires of equal resistance as shown in figure. The equivalent resistance between the points A and B shown in the figure is..... . The resistance of each wire is of r Omega . A and B are the midpoints of the sides PQ and VU respectively.

HC VERMA-ELECTRIC CURRENT IN CONDUCTORS-Exercises

Twelve wire, each having equal resistance r, are joined to form a cube...
Text Solution
|
Find the equivalent resistances of the network shown in figure between...
Text Solution
|
An infinite ladder is constructed with 1(Omega)and 2(Omega)resistor as...
Text Solution
|
The emf (epsilon)and the internal resistance r of the battery shown in...
Text Solution
|
A voltmeter of resistances 400(Omega)is used to measure the potential ...
Text Solution
|
The voltmeter shown in figure reads 18V across the 50(Omega)resistor. ...
Text Solution
|
A voltmeter consists of a 25(Omega) coil connected in series with a 57...
Text Solution
|
An ammeter is to be constructed which can read currents up to 2.0A. If...
Text Solution
|
A voltmeter coil has resistance 50.0(Omega)and a resistor of 1.15k(Ome...
Text Solution
|
The potentiometer wire AB shown in figure is 40 cm long. Where should ...
Text Solution
|
The potentiometer wire AB shown in figure is 50cm long.When AD=30cm, n...
Text Solution
|
A 6-volt battery of negligible internal resistance is connected across...
Text Solution
|
Consider the potentiometer circuit arranged as in figure.The petentiom...
Text Solution
|
Find the charge on the capacitor shown in figure
Text Solution
|
(a) Find the current in the 20(Omega)resistor shown in figure.(b)If a ...
Text Solution
|
Find the charge on the four capacirtors of capacitances 1(mu)F,2(mu)F,...
Text Solution
|
find the potential difference between th point A and B and between the...
Text Solution
|
A capacitance C, a resistance R and an emf (epsilon)are connected in s...
Text Solution
|
A parallel-plate capacitor with plate are 20cm^(2)and plate separation...
Text Solution
|
A capacitor of capacitance 10(mu)F is connected to a battery of emf 2V...
Text Solution
|