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Find the maximum force of the conductor having length 60cm, current 2.75A and flux density of 9 units.
- a)14.85
- b)18.54
- c)84.25
- d)7.256
Correct answer is option 'A'. Can you explain this answer?
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Verified Answer
Find the maximum force of the conductor having length 60cm, current 2....
Answer: a
Explanation: The force on a conductor is given by F = BIL sin θ, where B = 3.75, I = 8, L = 0.12 and θ = 90 for maximum force. We get F
= BIL= 9 x 2.75 x 0.6 sin 90 = 14.85 units.
Explanation: The force on a conductor is given by F = BIL sin θ, where B = 3.75, I = 8, L = 0.12 and θ = 90 for maximum force. We get F
= BIL= 9 x 2.75 x 0.6 sin 90 = 14.85 units.
Most Upvoted Answer
Find the maximum force of the conductor having length 60cm, current 2....
To find the maximum force on a conductor, we can use the formula:
F = BIL
Where:
F is the force on the conductor (in Newtons),
B is the magnetic flux density (in Tesla),
I is the current flowing through the conductor (in Amperes), and
L is the length of the conductor (in meters).
Given:
Length of the conductor (L) = 60 cm = 0.6 m
Current (I) = 2.75 A
Flux density (B) = 9 units
Let's substitute the given values into the formula and calculate the force:
F = (9 units) * (2.75 A) * (0.6 m)
We need to convert the units to obtain the force in Newtons:
1 unit = 1 Tesla
F = (9 T) * (2.75 A) * (0.6 m)
The units cancel out, and we are left with:
F = 14.85 N
Therefore, the maximum force on the conductor is 14.85 Newtons.
So, the correct answer is option 'A': 14.85.
F = BIL
Where:
F is the force on the conductor (in Newtons),
B is the magnetic flux density (in Tesla),
I is the current flowing through the conductor (in Amperes), and
L is the length of the conductor (in meters).
Given:
Length of the conductor (L) = 60 cm = 0.6 m
Current (I) = 2.75 A
Flux density (B) = 9 units
Let's substitute the given values into the formula and calculate the force:
F = (9 units) * (2.75 A) * (0.6 m)
We need to convert the units to obtain the force in Newtons:
1 unit = 1 Tesla
F = (9 T) * (2.75 A) * (0.6 m)
The units cancel out, and we are left with:
F = 14.85 N
Therefore, the maximum force on the conductor is 14.85 Newtons.
So, the correct answer is option 'A': 14.85.
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Find the maximum force of the conductor having length 60cm, current 2.75A and flux density of 9 units.a)14.85b)18.54c)84.25d)7.256Correct answer is option 'A'. Can you explain this answer?
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