Find the initial current in the circuit (at t=0)

In summary, the initial current in the circuit is 25 μA when the switch is closed at t=0, with a charging time constant of 8 seconds. The charge and capacitance of the capacitor can be used to calculate the potential and resulting current in the circuit.
  • #1
Fatima Hasan
319
14

Homework Statement


In the circuit shown,the initial charge on the capacitor is Q0 = 200μC . If the switch is closed at t=0 , the capacitor starts discharging through the resistance R=4MΩ . What is the initial current (in μA) (i.e. at t=0) in the circuit?
53_ABA506-64_E0-4721-_B028-006_CDE9_A64_A4.jpg

Homework Equations


I = I0 e-t/τ
τ = Req *C
Q = CΔV

The Attempt at a Solution


When the switch is closed at t=0 , no current will flow .
I = 0
Is my answer correct ?
 

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  • #2
Fatima Hasan said:
The initial current
Initial charge.
Fatima Hasan said:
When the switch is closed at t=0 , no current will flow .
Why not? What is the voltage?
 
  • #3
Fatima Hasan said:

Homework Statement


The initial current on the capacitor is Q0 = 200μC . If the switch is closed at t=0 , the capacitor starts discharging through the resistance R=4MΩ . What is the initial current (in μA) (i.e. at t=0) in the circuit?

What is the capacitance of that capacitor? And the 200 μC is charge, not current.
Fatima Hasan said:

The Attempt at a Solution


When the switch is closed at t=0 , no current will flow .
I = 0
Is my answer correct ?
No. The current is zero when the switch is open, but starts to flow just at the instant it is closed. How does the current change with time in case of a discharging capacitor?
 
  • #4
haruspex said:
Initial charge.

Why not? What is the voltage?
ehild said:
What is the capacitance of that capacitor? And the 200 μC is charge, not current.

No. The current is zero when the switch is open, but starts to flow just at the instant it is closed. How does the current change with time in case of a discharging capacitor?

τ =Req C
= 4*106 * 2*10-6
τ= 8s
Using KVL :
-RI + Vc = 0
Vc = Q / C
- 4*106 * I + (200 μ)/(2μ) =0
I = 2.5*10-5 = 25 μA
I = I0 e-t/τ
2.5*10-5 = I0 e0/8
I0 = 2.5*10-5
= 25 μA
 
  • #5
Fatima Hasan said:
τ =Req C
= 4*106 * 2*10-6
τ= 8s
Using KVL :
-RI + Vc = 0
Vc = Q / C
- 4*106 * I + (200 μ)/(2μ) =0
I = 2.5*10-5 = 25 μA
I = I0 e-t/τ
2.5*10-5 = I0 e0/8
I0 = 2.5*10-5
= 25 μA
Right answer, but it is much simpler than that.
You know the charge and capacitance, so what is the potential? What current results when that potential is placed across that resistance?
 
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  • #6
Fatima Hasan said:
τ =Req C
= 4*106 * 2*10-6
τ= 8s
Using KVL :
-RI + Vc = 0
Vc = Q / C
- 4*106 * I + (200 μ)/(2μ) =0
I = 2.5*10-5 = 25 μA
I = I0 e-t/τ
2.5*10-5 = I0 e0/8
I0 = 2.5*10-5
= 25 μA
it is correct now. :smile:
 
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Related to Find the initial current in the circuit (at t=0)

1. What is the initial current in a circuit?

The initial current in a circuit refers to the amount of electrical charge flow at the beginning of a circuit when the switch is first closed. It is typically measured in amperes (A).

2. How is the initial current calculated?

The initial current can be calculated using Ohm's Law, which states that current (I) is equal to voltage (V) divided by resistance (R). Therefore, the initial current can be found by dividing the initial voltage by the total resistance in the circuit.

3. Why is it important to know the initial current in a circuit?

Knowing the initial current is important because it helps us understand the behavior of the circuit and the flow of electricity. It also allows us to calculate other important values such as power and energy.

4. What factors affect the initial current in a circuit?

The initial current in a circuit is affected by the voltage of the power source, the resistance of the components in the circuit, and the type of circuit (series or parallel). Changes in any of these factors can result in a different initial current.

5. Can the initial current in a circuit be negative?

Yes, the initial current in a circuit can be negative if the voltage and resistance are such that the flow of current is in the opposite direction of the conventional current flow. This is known as reverse current.

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