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Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is
(Round off up to 2 decimal places)
Correct answer is '3.14'. Can you explain this answer?
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Steel wire of length L' at 40°C is suspended from the ceiling and the...
Youngs modulus
We know that
Also
From (i) and (ii)
= 3.14
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Steel wire of length L' at 40°C is suspended from the ceiling and the...
Given data:
- Length of the wire at 40°C, L' = ?
- Change in temperature, ΔT = 40°C - 30°C = 10°C
- Coefficient of linear thermal expansion of steel, α = 10-5/°C
- Young's modulus of steel, Y = 1011 N/m2
- Radius of the wire, r = 1 mm = 0.001 m
Approach:
To find the value of 'm', we need to analyze the forces acting on the wire and find the equilibrium condition. The forces involved are the weight of the hanging mass and the tension in the wire.
Analysis:
1. Tension in the wire:
When the wire is suspended from the ceiling, it experiences a tension force that balances the weight of the hanging mass.
- At 40°C, the length of the wire is L', and the tension force is T'.
- At 30°C, the length of the wire is L (original length), and the tension force is T.
2. Change in length of the wire:
The change in length of the wire can be calculated using the formula:
ΔL = α * L' * ΔT
3. Change in tension force:
The change in tension force can be calculated using the formula:
ΔTension = T - T' = Y * ΔL / L'
4. Equilibrium condition:
In equilibrium, the upward force due to tension (T) in the wire is equal to the downward force due to the weight of the hanging mass (mg).
5. Calculating the mass:
Using the equilibrium condition, we can calculate the mass 'm' by equating the forces:
T = mg
Solution:
1. Change in length of the wire:
ΔL = α * L' * ΔT
= (10-5/°C) * L' * 10°C
= 10-4 * L' meters
2. Change in tension force:
ΔTension = Y * ΔL / L'
= (1011 N/m2) * (10-4 * L') / L'
= 1011 * 10-4 N
= 0.1011 N
3. Equilibrium condition:
T = mg
T - T' = mg
ΔTension = mg
0.1011 N = m * 9.8 m/s2 (acceleration due to gravity)
4. Calculating the mass 'm':
m = 0.1011 / 9.8 kg
m ≈ 0.01034 kg
m ≈ 0.01 kg (rounded off to 2 decimal places)
Therefore, the value of 'm' is approximately 0.01 kg, which is not equal to the given correct answer of 3.14 kg. It seems there might be an error in the provided correct answer.
- Length of the wire at 40°C, L' = ?
- Change in temperature, ΔT = 40°C - 30°C = 10°C
- Coefficient of linear thermal expansion of steel, α = 10-5/°C
- Young's modulus of steel, Y = 1011 N/m2
- Radius of the wire, r = 1 mm = 0.001 m
Approach:
To find the value of 'm', we need to analyze the forces acting on the wire and find the equilibrium condition. The forces involved are the weight of the hanging mass and the tension in the wire.
Analysis:
1. Tension in the wire:
When the wire is suspended from the ceiling, it experiences a tension force that balances the weight of the hanging mass.
- At 40°C, the length of the wire is L', and the tension force is T'.
- At 30°C, the length of the wire is L (original length), and the tension force is T.
2. Change in length of the wire:
The change in length of the wire can be calculated using the formula:
ΔL = α * L' * ΔT
3. Change in tension force:
The change in tension force can be calculated using the formula:
ΔTension = T - T' = Y * ΔL / L'
4. Equilibrium condition:
In equilibrium, the upward force due to tension (T) in the wire is equal to the downward force due to the weight of the hanging mass (mg).
5. Calculating the mass:
Using the equilibrium condition, we can calculate the mass 'm' by equating the forces:
T = mg
Solution:
1. Change in length of the wire:
ΔL = α * L' * ΔT
= (10-5/°C) * L' * 10°C
= 10-4 * L' meters
2. Change in tension force:
ΔTension = Y * ΔL / L'
= (1011 N/m2) * (10-4 * L') / L'
= 1011 * 10-4 N
= 0.1011 N
3. Equilibrium condition:
T = mg
T - T' = mg
ΔTension = mg
0.1011 N = m * 9.8 m/s2 (acceleration due to gravity)
4. Calculating the mass 'm':
m = 0.1011 / 9.8 kg
m ≈ 0.01034 kg
m ≈ 0.01 kg (rounded off to 2 decimal places)
Therefore, the value of 'm' is approximately 0.01 kg, which is not equal to the given correct answer of 3.14 kg. It seems there might be an error in the provided correct answer.
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Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer?
Question Description
Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer?.
Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer?.
Solutions for Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? in English & in Hindi are available as part of our courses for JEE.
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Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer?, a detailed solution for Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? has been provided alongside types of Steel wire of length L' at 40°C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40°C to 30°C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10-5/°C, Young's modulus of steel is 1011 N/m2 and radius of the wire is 1 mm. Assume that L >> diameter of the wire. Then the value of 'm' in kg is(Round off up to 2 decimal places)Correct answer is '3.14'. Can you explain this answer? theory, EduRev gives you an
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