To find the resistance of a given wire / standard resistor using a metre bridge | CBSE Class 12 physics practical

Objective:

To find the resistance of a given wire/standard resistor using a metre bridge.

Required Apparatus:

A meter bridge, a battery eliminator, a galvanometer meter, a resistance box, a jockey, a one-way key, a resistance wire, and connecting wires.

Formula Used:

Where,
R is known resistance placed in the left gap of the metre bridge.

X is the unknown resistance placed in the right gap of the metre bridge.

L (cm) is the length of the metre bridge wire from zero end up to the balance point.

Circuit Diagram:

Observation Table:

Calculations:

Result

• The value of unknown resistance X is 5.4056 ohm.

Precautions:

• The balance point should lie between 40 cm and 60 cm.
• All connections should be clean and tight.
• Hold the jockey perpendicular to the wire of the metre bridge.
• Move the jockey gently on the wire and do not keep the jockey and wire in contact for a long time.

Sources of Error:

• The key of the resistance box may not be clean and tight.
• The wire may not be uniformly thick throughout.
• The screw of the instruments may be loose.

Viva Question-Answers

Q.1. What is metre bridge? Explain in brief.

Ans. The metre bridge was originally developed by Charles Wheatstone to measure unknown resistance values and as a means of calibrating measuring instruments, voltmeters, ammeters, etc. by the use of a long resistive slide wire.

Q.2. Explain the structure of metre bridge.
Ans. The metre bridge consists of a one metre long wire of uniform cross sectional area fixed on a wooden block. A scale is attached to the block. Two gaps are formed on it by using thick metal strips in order to make the Wheatstone’s bridge. The terminal B between the gaps is used to connect galvanometer and jockey. The metre bridge operates under Wheatstone’s principle.

Q.3. Why is the metre bridge so called?

Ans. It is so because it uses a one metre long wire.

Q.4.When is a Wheatstone bridge most sensitive?

Ans A bridge is most sensitive when the resistances in the four arms of the bridge are of the same order of magnitude.

Q.5 How do you define resistivity or specific resistance of material?

Ans . It is defined as the resistance of a metre long wire of the material and having an area of cross-section 1 m².

Q.6 Does resistance depend upon length and area of cross-section of the material?

Ans. Yes

Q.7. What happens to the resistivity of a semiconductor, if its temperature is increased?

Ans. The resistivity of a semiconductor decreases with the rise of temperature.