- #1
coldturkey
- 25
- 0
A controller on an electronic arcade game consists of a variable resistor connected across the plates of a 0.220\mu F capacitor. The capacitor is charged to 5.00V, then discharged through the resistor. The time for the potential difference across the plates to decrease to 0.800V is measured by a clock inside the game. If the range of discharge times that can be handled effectivly is from 10.0\mu s to 6.00ms, what should be the resistance range of the resistor?
I have solved the problem and I get a maximum resistance of 27272.7\Omega and a minimum resistance of 45.45\Omega.
But these values seem a bit too large.
The way I did it:
I = q/t
q = CV
so I = CV/t
and R = V/I
and solved it for all 4 cases:
(max voltage, largest discharge time)
(max voltage, smallest discharge time)
(min voltage, largest discharge time)
(min voltage, smallest discharge time)
An found there are two different values for the resistor:
27272.7\Omega and 45.45\Omega.
Does anyone know if there is anything I have done wrong?
Many thanks
I have solved the problem and I get a maximum resistance of 27272.7\Omega and a minimum resistance of 45.45\Omega.
But these values seem a bit too large.
The way I did it:
I = q/t
q = CV
so I = CV/t
and R = V/I
and solved it for all 4 cases:
(max voltage, largest discharge time)
(max voltage, smallest discharge time)
(min voltage, largest discharge time)
(min voltage, smallest discharge time)
An found there are two different values for the resistor:
27272.7\Omega and 45.45\Omega.
Does anyone know if there is anything I have done wrong?
Many thanks
