(e) The charge on the capacitor is given by q = 6C(1 – e 25 ). And the current follows as I = 3A€¯25. (True, False) (f) The charge on the capacitor and the current through the circuit after 2 time constant are 5.19C and 0.406 A respectively. (True, False) (g) The capacitor at t = 0+ behaves like a conducting wire[with zero resistance] and at t → o like an open circuit[ with infinite resistance]. (True, False)

(e) The charge on the capacitor is given by q = 6C(1 – e 25 ). And the current follows as I = 3A€¯25. (True, False) (f) The charge on the capacitor and the current through the circuit after 2 time constant are 5.19C and 0.406 A respectively. (True, False) (g) The capacitor at t = 0+ behaves like a conducting wire[with zero resistance] and at t → o like an open circuit[ with infinite resistance]. (True, False)

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter24: Electric Fields

Section24.2: Special Case: Electric Field Of A Charged Sphere

Problem 24.1CE: In a few sentences, explain how you know that E(r)=(kQs/r2)r (Eq. 24.3) is consistent with Figure...

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Ferromagnetism

Ferromagnetism is a mechanism by which some materials show magnetic properties. Iron and magnetite, an oxide of iron, are two naturally occurring materials that show the property of ferromagnetism. The word ferromagnetism is derived from the Latin name of iron, "Ferrum" as it was the first observed material to show such property. The property of ferromagnetism is shown by only a few substances such as iron, nickel, cobalt, and their alloys. Some transition metals and alloys of rare-earth metals also show ferromagnetism.

Question

(e) The charge on the capacitor is given by q = 6C(1 - e 28 ). And the current follows as I = 3Ae 2s. (True, False)
(f) The charge on the capacitor and the current through the circuit after 2 time constant are 5.19C and 0.406A respectively.
(True, False)
(g) The capacitor at t = 0+ behaves like a conducting wire[with zero resistance] and at t o like an open circuit[ with infinite resistance].
(True, False)

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