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At a distance of 2.5 cm from a long straight current-carrying wire, the magnetic field has a value of 1.3 T. What would be the value of the magnetic field at a point that is twice as far from the wire,
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At a distance of 2.5 cm from a long straight current-carrying wire, the magnetic field has a value of 1.3 T. What would be the value of the magnetic field at a point that is twice as far from the wire, when the wire carries twice as much current

User Kevin Hirst
by
5.2k points

1 Answer

2 votes

Answer:

The magnetic field is
B_2 = 1.3 \ T

Step-by-step explanation:

From the question we are told that

The distance from the wire is d = 2.5 cm = 0.25 m

The magnetic field is B = 1.3 T

Generally the magnetic field that is as a result of as current carrying conductor is mathematically represented as


B = (\mu_o * I)/(2 \pi d)

so


1.3 = (\mu_o * I)/(2 \pi d)

given that the distance and the current is doubled


B_2 = (\mu_o * 2I)/(2 \pi (2d) )

=>
B_2 = (\mu_o * I)/(2 \pi d)

Hence


B_2 = 1.3 = (\mu_o * I)/(2 \pi d)

=>
B_2 = 1.3 \ T

User Michael Holman
by
5.2k points
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