Inductance: Current in terms of Voltage

[a3sportback54]

I'm having a bit of trouble getting the right answer for a problem in my electrical engineering textbook. The question is:

At t=0, the current flowing in a 0.6H inductance is 8A. What constant voltage must be applied to reduce the current to 0A at t=0.4s.

I'm using the equation:

[tex]i(t)=\frac{1}{L}\int\ v(t).dt+i(t_{0})[/tex] with limits 0.4s and 0s

The answer I'm getting is 12V, and the book says 10V.. which is right??

I'm using L=0.6H, i(t0)=8A, and i(t)=0A

Please help!

 

[CEL]

It seems the book answer is wrong. And so is yours. The correct answer would be -12V.

 

[Mene]

I cannot provide an answer to a specific problem in your textbook. However, I can provide some general information about inductance and its relationship to current and voltage.

Inductance is a property of an electrical circuit that describes how much a circuit resists changes in current. It is measured in units of Henrys (H). Inductors, which are components used in circuits to store energy in the form of a magnetic field, have a specific inductance value.

The relationship between inductance, current, and voltage is described by the equation V=L di/dt, where V is voltage, L is inductance, and di/dt is the rate of change of current over time. This equation is known as Faraday's Law.

In your problem, you are given the inductance value (0.6H) and the initial current (8A) at time t=0. You are also given the final current (0A) at time t=0.4s. To find the constant voltage required to reduce the current to 0A, you can rearrange the equation to solve for V:

V = L di/dt

= (0.6H) [(0A - 8A) / (0.4s - 0s)]

= (0.6H) (-20A/s)

= -12V

Note that the negative sign indicates that the voltage must be in the opposite direction of the initial current to reduce it to 0A.

Therefore, based on the information given in your problem, the answer of 12V is correct. It is possible that there may be a mistake in the book or a typo in the problem. I recommend double-checking your calculations and the given information to determine the correct answer.