Wheatstone Bridge: Essential Concepts for Competitive Exams

Wheatstone Bridge

Q. In a Wheatstone bridge, if the galvanometer shows a deflection, what does it indicate?

A. The bridge is balanced
B. The bridge is unbalanced
C. The resistances are equal
D. The current is zero

Solution

A deflection in the galvanometer indicates that the bridge is unbalanced, meaning the ratios of the resistances are not equal.

Correct Answer: B — The bridge is unbalanced

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Q. In a Wheatstone bridge, if the galvanometer shows zero deflection, what can be inferred about the current?

A. No current flows
B. Current flows through the galvanometer
C. Current is maximum
D. Current is minimum

Solution

Zero deflection indicates that no current flows through the galvanometer.

Correct Answer: A — No current flows

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Q. In a Wheatstone bridge, if the galvanometer shows zero deflection, what does it indicate?

A. The bridge is balanced
B. The bridge is unbalanced
C. The current is zero
D. The resistances are equal

Solution

Zero deflection in the galvanometer indicates that the bridge is balanced.

Correct Answer: A — The bridge is balanced

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Q. In a Wheatstone bridge, if the known resistances are 5Ω and 10Ω, what is the unknown resistance if the bridge is balanced with a 15Ω resistor?

A. 7.5Ω
B. 10Ω
C. 12.5Ω
D. 15Ω

Solution

Using the balance condition R1/R2 = R3/R4, we find R4 = (R2 * R3) / R1 = (10 * 15) / 5 = 30Ω.

Correct Answer: C — 12.5Ω

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Q. In a Wheatstone bridge, if the ratio of resistances in one arm is 2:3 and in the other arm is 4:5, what can be said about the bridge?

A. Balanced
B. Unbalanced
C. Cannot be determined
D. Short-circuited

Solution

The bridge is unbalanced because the ratios 2:3 and 4:5 are not equal.

Correct Answer: B — Unbalanced

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Q. In a Wheatstone bridge, if the ratio of resistances in one arm is 2:3 and in the other arm is 4:5, what is the condition for the bridge to be balanced?

A. 2/3 = 4/5
B. 2/3 = 5/4
C. 3/2 = 5/4
D. 3/2 = 4/5

Solution

For the bridge to be balanced, the ratios must be equal. Thus, 2/3 should equal 4/5, which is not true.

Correct Answer: A — 2/3 = 4/5

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Q. In a Wheatstone bridge, if the ratio of resistances P and Q is 2:3 and the ratio of resistances R and S is 4:5, what can be said about the bridge?

A. Balanced
B. Unbalanced
C. Cannot be determined
D. Short-circuited

Solution

The bridge is unbalanced because the ratios of the resistances do not match.

Correct Answer: B — Unbalanced

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Q. In a Wheatstone bridge, if the ratio of resistances R1 and R2 is equal to the ratio of R3 and R4, what can be said about the bridge?

A. The bridge is balanced.
B. The bridge is unbalanced.
C. The current through the galvanometer is maximum.
D. The potential difference across the galvanometer is maximum.

Solution

When R1/R2 = R3/R4, the bridge is balanced, meaning no current flows through the galvanometer.

Correct Answer: A — The bridge is balanced.

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Q. In a Wheatstone bridge, if the ratio of resistances R1 to R2 is equal to the ratio of R3 to R4, what can be said about the bridge?

A. The bridge is balanced.
B. The bridge is unbalanced.
C. The current through the galvanometer is maximum.
D. The potential difference across the galvanometer is maximum.

Solution

When R1/R2 = R3/R4, the bridge is balanced, meaning no current flows through the galvanometer.

Correct Answer: A — The bridge is balanced.

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Q. In a Wheatstone bridge, if the ratio of resistances R1 to R2 is equal to the ratio of R3 to R4, what can be concluded?

A. The bridge is balanced.
B. The current through the galvanometer is maximum.
C. The potential difference across the galvanometer is maximum.
D. The resistances are equal.

Solution

When R1/R2 = R3/R4, the bridge is balanced, meaning no current flows through the galvanometer.

Correct Answer: A — The bridge is balanced.

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Q. In a Wheatstone bridge, if the ratio of the resistances in one arm is 2:3 and in the other arm is 4:5, what is the condition for the bridge to be balanced?

A. 2/3 = 4/5
B. 2/3 = 5/4
C. 3/2 = 5/4
D. 3/2 = 4/5

Solution

For a Wheatstone bridge to be balanced, the ratio of the resistances must be equal. Here, 2/3 is not equal to 4/5.

Correct Answer: A — 2/3 = 4/5

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Q. In a Wheatstone bridge, if the resistance P is increased, what effect does it have on the balance condition?

A. Bridge remains balanced
B. Bridge becomes unbalanced
C. Bridge becomes short-circuited
D. Bridge becomes open-circuited

Solution

Increasing resistance P will disturb the balance condition, making the bridge unbalanced.

Correct Answer: B — Bridge becomes unbalanced

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Q. In a Wheatstone bridge, if the resistance R2 is decreased, what effect does it have on the balance condition?

A. It will balance the bridge.
B. It will unbalance the bridge.
C. It has no effect.
D. It will increase the current.

Solution

Decreasing R2 will disturb the balance condition, causing the bridge to become unbalanced.

Correct Answer: B — It will unbalance the bridge.

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Q. In a Wheatstone bridge, if the resistance R2 is doubled, what effect does it have on the balance condition?

A. It remains balanced.
B. It becomes unbalanced.
C. It requires R4 to be halved.
D. It requires R1 to be doubled.

Solution

Doubling R2 will change the ratio R1/R2, thus unbalancing the bridge.

Correct Answer: B — It becomes unbalanced.

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Q. In a Wheatstone bridge, if the resistance R4 is adjusted to achieve balance, what does this imply about the other resistances?

A. They are equal.
B. They are in series.
C. They are in parallel.
D. They maintain a specific ratio.

Solution

Adjusting R4 to achieve balance implies that the other resistances maintain a specific ratio.

Correct Answer: D — They maintain a specific ratio.

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Q. In a Wheatstone bridge, if the resistances are 1Ω, 2Ω, 3Ω, and 6Ω, is the bridge balanced?

A. Yes
B. No
C. Only if R4 is adjusted
D. Only if R3 is adjusted

Solution

The bridge is not balanced because 1/2 is not equal to 3/6.

Correct Answer: B — No

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Q. In a Wheatstone bridge, if the resistances are P = 5Ω, Q = 10Ω, R = 15Ω, what is the value of S for balance?

A. 7.5Ω
B. 10Ω
C. 12.5Ω
D. 15Ω

Solution

Using the balance condition P/Q = R/S, we find S = (Q*R)/P = (10*15)/5 = 30Ω.

Correct Answer: C — 12.5Ω

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Q. In a Wheatstone bridge, if the resistances are R1 = 2Ω, R2 = 3Ω, R3 = 4Ω, what is the value of R4 for balance?

A. 6Ω
B. 8Ω
C. 12Ω
D. 1.5Ω

Solution

For balance, R4 must be 6Ω since 2/3 = 4/6.

Correct Answer: A — 6Ω

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Q. In a Wheatstone bridge, if the supply voltage is 12V and the bridge is balanced, what is the voltage across each arm?

A. 6V each
B. 12V each
C. 4V each
D. 8V each

Solution

In a balanced Wheatstone bridge, the voltage divides equally across the two arms, so each arm would have 6V if the total is 12V.

Correct Answer: A — 6V each

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Q. What happens to the current in the galvanometer when the Wheatstone bridge is balanced?

A. Increases
B. Decreases
C. Becomes zero
D. Fluctuates

Solution

When the Wheatstone bridge is balanced, the current in the galvanometer becomes zero.

Correct Answer: C — Becomes zero

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Q. What happens to the current through the galvanometer when the bridge is balanced?

A. It increases.
B. It decreases.
C. It becomes zero.
D. It becomes maximum.

Solution

When the bridge is balanced, the current through the galvanometer becomes zero.

Correct Answer: C — It becomes zero.

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Q. What happens to the current through the galvanometer when the Wheatstone bridge is unbalanced?

A. It becomes zero
B. It increases
C. It decreases
D. It becomes infinite

Solution

When the Wheatstone bridge is unbalanced, there is a non-zero potential difference across the galvanometer, causing current to flow through it.

Correct Answer: B — It increases

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Q. What happens to the current through the galvanometer when the Wheatstone bridge is balanced?

A. It increases
B. It decreases
C. It becomes zero
D. It becomes infinite

Solution

When the Wheatstone bridge is balanced, the potential difference across the galvanometer is zero, resulting in zero current through it.

Correct Answer: C — It becomes zero

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Q. What happens to the current through the galvanometer when the Wheatstone bridge is perfectly balanced?

A. It flows in one direction.
B. It flows in both directions.
C. It is zero.
D. It is maximum.

Solution

When the Wheatstone bridge is perfectly balanced, the current through the galvanometer is zero.

Correct Answer: C — It is zero.

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Q. What happens to the galvanometer reading in a Wheatstone bridge when it is balanced?

A. It shows maximum current
B. It shows minimum current
C. It shows zero current
D. It shows fluctuating current

Solution

When the Wheatstone bridge is balanced, the potential difference across the galvanometer is zero, resulting in zero current.

Correct Answer: C — It shows zero current

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Q. What happens to the sensitivity of a Wheatstone bridge if the resistances are made equal?

A. Sensitivity increases
B. Sensitivity decreases
C. Sensitivity remains the same
D. Sensitivity becomes infinite

Solution

If the resistances are made equal, the sensitivity of the Wheatstone bridge becomes infinite, as even a small change will cause a large deflection.

Correct Answer: D — Sensitivity becomes infinite

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Q. What happens to the total resistance in a Wheatstone bridge when it is balanced?

A. It is maximum.
B. It is minimum.
C. It is equal to the sum of all resistances.
D. It is equal to the product of resistances.

Solution

When the Wheatstone bridge is balanced, the total resistance is at a minimum for the given configuration.

Correct Answer: B — It is minimum.

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Q. What is the condition for a Wheatstone bridge to be balanced?

A. R1/R2 = R3/R4
B. R1 + R2 = R3 + R4
C. R1 - R2 = R3 - R4
D. R1 * R2 = R3 * R4

Solution

The condition for a Wheatstone bridge to be balanced is R1/R2 = R3/R4.

Correct Answer: A — R1/R2 = R3/R4

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Q. What is the condition for a Wheatstone bridge to be in a balanced state?

A. R1/R2 = R3/R4
B. R1 + R2 = R3 + R4
C. R1 - R2 = R3 - R4
D. R1 * R4 = R2 * R3

Solution

The condition for balance is R1/R2 = R3/R4.

Correct Answer: A — R1/R2 = R3/R4

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Q. What is the condition for a Wheatstone bridge to be in equilibrium?

A. R1/R2 = R3/R4
B. R1 + R2 = R3 + R4
C. R1 - R2 = R3 - R4
D. R1 * R3 = R2 * R4

Solution

In a Wheatstone bridge, the bridge is in equilibrium when the ratio of the resistances in one branch is equal to the ratio in the other branch, i.e., R1/R2 = R3/R4.

Correct Answer: A — R1/R2 = R3/R4

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Wheatstone Bridge MCQ & Objective Questions

The Wheatstone Bridge is a fundamental concept in electrical engineering and physics, making it a crucial topic for students preparing for exams. Understanding this concept not only enhances your grasp of circuit analysis but also boosts your performance in objective questions. Practicing Wheatstone Bridge MCQs and other practice questions can significantly improve your exam readiness and help you score better in important exams.

What You Will Practise Here

Understanding the principle of the Wheatstone Bridge
Key formulas related to resistance and current
Applications of the Wheatstone Bridge in measuring unknown resistances
Derivation of the balance condition in a Wheatstone Bridge
Diagrams illustrating the Wheatstone Bridge setup
Common variations and modifications of the Wheatstone Bridge
Real-life applications and significance in electrical measurements

Exam Relevance

The Wheatstone Bridge is frequently featured in various examinations, including CBSE, State Boards, NEET, and JEE. Students can expect questions that test their understanding of the bridge's operation, calculations involving resistance, and its applications. Common question patterns include numerical problems, theoretical explanations, and conceptual applications, making it essential to master this topic for success in competitive exams.

Common Mistakes Students Make

Confusing the balance condition with other circuit conditions
Misapplying formulas related to resistance and current
Overlooking the significance of the galvanometer in the bridge circuit
Failing to interpret circuit diagrams accurately

FAQs

Question: What is the main purpose of a Wheatstone Bridge?
Answer: The main purpose of a Wheatstone Bridge is to measure unknown electrical resistances by balancing two legs of a circuit.

Question: How does the Wheatstone Bridge work?
Answer: The Wheatstone Bridge works by comparing the ratio of two resistances in one leg of the circuit to the ratio of two known resistances in the other leg, allowing for precise measurement of unknown resistance.

Ready to enhance your understanding of the Wheatstone Bridge? Dive into our practice MCQs and test your knowledge today! Mastering these important Wheatstone Bridge questions for exams will give you the confidence you need to excel.

Wheatstone Bridge

Wheatstone Bridge MCQ & Objective Questions

What You Will Practise Here

Exam Relevance

Common Mistakes Students Make

FAQs

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