A 1.3 µF capacitor with an initial stored energy of 0.55 J isdischarged through a 2.6 MO resistor.
(a) What is the initial charge on the capacitor?
1 C
(b) What is the current through the resistor when the dischargestarts?
2 A
(c) Find an expression that gives, as a function of time t, thepotential difference VC across the capacitor. (Use the following asnecessary: t. Do not include untis in your answer.)
VC =
(d) Find an expression that gives, as a function of time t, thepotential difference VR across the resistor. (Use the following asnecessary: t. Do not include untis in your answer.)
VR =
(e) Find an expression that gives, as a function of time t, therate at which thermal energy is produced in the resistor. (Use thefollowing as necessary: t. Do not include untis in youranswer.)
P =
A 1.3 µF capacitor with an initial stored energy of 0.55 J isdischarged through a 2.6 MO resistor.
(a) What is the initial charge on the capacitor?
1 C
(b) What is the current through the resistor when the dischargestarts?
2 A
(c) Find an expression that gives, as a function of time t, thepotential difference VC across the capacitor. (Use the following asnecessary: t. Do not include untis in your answer.)
VC =
(d) Find an expression that gives, as a function of time t, thepotential difference VR across the resistor. (Use the following asnecessary: t. Do not include untis in your answer.)
VR =
(e) Find an expression that gives, as a function of time t, therate at which thermal energy is produced in the resistor. (Use thefollowing as necessary: t. Do not include untis in youranswer.)
P =
