Explanation:
(a) Formula to calculate the capacitance is as follows.
[tex]V_{c} = V_{o} (e^(\frac{-t}{RC}))[/tex]
Now, putting the given values into the above formula as follows.
[tex]V_{c} = V_{o} (e^(\frac{-t}{RC}))[/tex]
[tex]3.5 V = 12 V (e^(\frac{-3.50 sec}{3.90 \times C}))[/tex]
[tex]e^(\frac{-3.50 sec}{3.90 \times C})[/tex] = 0.291
or, [tex]\frac{-3.50 sec}{3.90 \times C}[/tex] = ln (0.291)
[tex]\frac{-3.50 sec}{3.90 \times C}[/tex] = -1.23
C = 0.729 F
Hence, the value of capacitance is 0.729 F.
(b) Formula to calculate the constant of circuit is as follows.
T = [tex]R \times C[/tex]
= [tex]3.1 \times 0.729[/tex]
= 2.259 sec
Therefore, the time constant of the circuit is 2.259 sec.