The figure below shows the charge on a capacitor and the current through the resistor as a function of time in a RC circuit. Fig A: Charge VS. Time Capacitor. Fig B: Current Vs. Time Resistor. Charge vs. Time Capacitor Current vs. Time Resistor 0.368 l, - 0.368 Q. lo = 17 27 37 47 57 17 27 3T 47 57 Time (s) Time (s) (a) (b) Part A: Do these graphs represent the charging or the discharging of the capacitor? Explain. Charge (C) Current (A)
The figure below shows the charge on a capacitor and the current through the resistor as a function of time in a RC circuit. Fig A: Charge VS. Time Capacitor. Fig B: Current Vs. Time Resistor. Charge vs. Time Capacitor Current vs. Time Resistor 0.368 l, - 0.368 Q. lo = 17 27 37 47 57 17 27 3T 47 57 Time (s) Time (s) (a) (b) Part A: Do these graphs represent the charging or the discharging of the capacitor? Explain. Charge (C) Current (A)
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Question
Transcribed Image Text:The figure below shows the charge on a capacitor and the current through the resistor as a function
of time in a RC circuit. Fig A: Charge VS. Time Capacitor. Fig B: Current Vs. Time Resistor.
Charge vs. Time Capacitor
Current vs. Time Resistor
0.368 lo
0.368 Qoʻ
17
27
37
47
57
17
27
37
47
57
Time (s)
Time (s)
(a)
(b)
Part A:
Do these graphs represent the charging or the discharging of the capacitor? Explain.
Part B: Calculations
(i)
If t= 0.09, construct an RC circuit choosing values of R and C that would represent the
graphs the above. Explain how you arrived at the choice?
If t = 0.1, construct an RC circuit choosing values of R and C that would represent the
graphs the above. Explain how you arrived at the choice?
(ii)
Charge (C)
Current (A)
Expert Solution
Step 1
According to the guidelines I will attempt only 1st part please repost part B again.
Given the two graphs and b
where a resemble an exponential decay between Q and capacitor
and
the graph b shows an exponential growth between and resistor
Step by step
Solved in 2 steps
