A solenoidal inductor for a printed circuit board is being redesigned. To save weight, the number of turns is reduced by one-fifth, with the geometric dimensions kept the same. By how much must the current change if the energy stored in the inductor is to remain the same?

Question

Noemi Kramer

Physics

23 October, 19:16

A solenoidal inductor for a printed circuit board is being redesigned. To save weight, the number of turns is reduced by one-fifth, with the geometric dimensions kept the same. By how much must the current change if the energy stored in the inductor is to remain the same?

+5

Answers (1)

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Camryn Osborn · Answer 1

The current must be 5 times larger

Explanation:

The equation for Inductance, is given by;

L = (μ_o•N²•A) / l

Where;

μ_o is the permeability of the core material

N is the number of turns

A is the cross sectional Area

l is the length of the coil in meters

L is the inductance

However, we also need to find an expression for the Energy Stored, and the equation is given by;

U = (1/2) LI²

Where;

L is the inductance

I is the current.

We also know that U is proportional to the number of turns and the current.

Thus, we can conclude that;

N_2/N_1 = I_1/I_2

From the question, we are told that the number of turns is reduces by 1/5. Thus,

1/5 = I_1/I_2

So, I_2 = 5I_1

So the current must be 5 times larger