Find Time Constant for RC Circuit: Solve the Equation!

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utkarshakash
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Homework Statement


The time constant of charging for the capacitor shown in the figure is


Homework Equations



See attached diagram

The Attempt at a Solution



[itex]\tau = R_{eq} C[/itex]

[itex]R_{eq} = R/2[/itex]

So the answer should be t= RC/2. But the correct answer is 0! :confused:
 

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Once the switch is closed all the components are in parallel, right? What's the rule for the potential across components in parallel?
 
gneill said:
Once the switch is closed all the components are in parallel, right? What's the rule for the potential across components in parallel?

They all have the same potential difference.
 
utkarshakash said:
They all have the same potential difference.

Right. And if the voltage source is ideal and the wires have entirely negligible resistance, then the capacitor voltage immediately after the switch closes must be...
 
gneill said:
Right. And if the voltage source is ideal and the wires have entirely negligible resistance, then the capacitor voltage immediately after the switch closes must be...

It should be V. Thus time constant must be 0. Thanks !