Question

1) La corriente de un inductor de 90.0 mH cambia con el transcurso del tiempo de la forma I = 1.00 t 2 – 6.00 t (en unidades del SI). Determine la magnitud de la fem inducida en a) t = 1.00 s y b) t = 4.00 s. C) ¿En qué momento será la fem igual a cero?

Answer 1

a) E_{L} = -360 V , b) t = 3 s

Step-by-step explanation:

The electromotive force in an inductor is

`E_(L)` = - L dI/ dt

in the exercise they give us the relation of i (t)

i (t) = 1.00 t² -6.00t

we carry out the derivative and substitute

E_{L} = - L (2.00 2t - 6.00 1)

a) the electromotive force at t = 1.00 s

E_{L} = - 90.0 (4.00 1 - 6.00)

E_{L} = -360 V

b) for t = 4 s

E_{L}= - 90 (2 4 2 - 6 4)

E_{L} = - 720 V

c) for the induced electromotive force to zero, the amount between paracentesis must be zero

(2.00 t2 - 6.00t) = 0

t (2.0 t-6.00) = 0

the solutions of this equation are

t = 0

2 t -6 = 0

t = 3 s

to have a different solution the trivial (all zero) we must total t = 3 s