91Ó°ÊÓ

Emf of the RC circuit,$\mathrm{Î\mu }=12\mathrm{V}$

The resistance value is given,$\mathrm{R}=1.40\mathrm{²ÑÎ\copyright }$

The given capacitance value, $\mathrm{C}=1.80\mathrm{μ¹ó}$

The RC time constant of an RC circuit is equal to the product of the circuit resistance (in ohms) and the circuit capacitance. Using the given relation of the voltage, the time constant of the RC circuit can be calculated. As the time approaches infinity, the exponential goes to zero, and the charge approaches the maximum charge.

Formulae:

The voltage equation for the resistor and capacitor connection,$\mathrm{V}={\mathrm{V}}_{\mathrm{o}}{\mathrm{e}}^{-\mathrm{t}/\mathrm{RC}}$ (1)

The charge between the capacitor plates, $\mathrm{Q}=\mathrm{CV}$ (2)

The time constant of the RC circuit, $\mathrm{t}=\mathrm{RC}$ (3)

Using the given data in equation (3), the time constant of the RC circuit can be given as follows:

$\begin{array}{rcl}\mathrm{t}& =& \left(1.40×{10}^6\mathrm{Î\copyright }\right)\left(1.80×{10}^{-6}\mathrm{F}\right)\\ & =& 2.52\mathrm{s}\end{array}$

Hence, the time constant is 2.52 s.

Using the given data in equation (2), the maximum charge that will appear on the capacitor during charging can be given as follows:

$\begin{array}{rcl}\mathrm{Q}& =& \left(1.80×{10}^{-6}\mathrm{F}\right)\left(12.0\mathrm{V}\right)\\ & =& 21.6\mathrm{μ°ä}\end{array}$

Hence, the value of the maximum charge is $21.6\mathrm{μ°ä}$.

Now, for the given charge ${\mathrm{Q}}^{\text{'}}=16\mathrm{μ°ä}$to accumulate, the time taken for the given charge to build between the capacitor plates can be given using equation (1) and equation (2) as follows:

$\begin{array}{rcl}{\mathrm{Q}}^{\text{'}}& =& \mathrm{Q}\left(1-{\mathrm{e}}^{\mathrm{t}/\mathrm{RC}}\right)\\ \mathrm{t}& =& \mathrm{RCln}\left(\frac{\mathrm{Q}}{\mathrm{Q}-{\mathrm{Q}}^{\text{'}}}\right)\\ \mathrm{t}& =& \left(2.52\mathrm{s}\right)\ln \left(\frac{21.6\mathrm{μ°ä}}{21.6\mathrm{μ°ä}-16\mathrm{μ°ä}}\right)\\ \mathrm{t}& =& 3.40\mathrm{s}\end{array}$

Hence, the value of time is 3.40 s.