Capacitor Problem: Calculating C1/C2 Ratio | Homework Statement & Equations

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SUMMARY

The problem involves two capacitors, C1 and C2, where C1 is initially charged to 10V and then connected in parallel to an uncharged capacitor C2, resulting in a new potential difference of 6V. The total charge before and after the connection remains constant, leading to the equation 10C1 = 6C1 + 6C2. Solving this gives the ratio C1/C2 = 3/2, confirming the relationship between the capacitances of the two capacitors.

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Homework Statement



A capacitor of capacitance C1 is charged to a potential difference of 10V and then disconnected. A second uncharged capacitor C2 is connected in parallel to the charged capacitor. The new potential difference is 6V. What is the value of the ratio C1/C2?

Homework Equations





The Attempt at a Solution



Some hints to start?
 
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Since the capacitors are connected in parallel connection, the plates connected with each other will have the same potential, and assuming ideal conditions(i.e no heat loss during charge transfer) the initial energy of the system(consisting C1) will be equal to the final energy of the system (consisting C1 & C2).
 


thereddevils said:

Homework Statement



A capacitor of capacitance C1 is charged to a potential difference of 10V and then disconnected. A second uncharged capacitor C2 is connected in parallel to the charged capacitor. The new potential difference is 6V. What is the value of the ratio C1/C2?

Homework Equations





The Attempt at a Solution



Some hints to start?

What do you know so far?
 


Shivpal said:
Since the capacitors are connected in parallel connection, the plates connected with each other will have the same potential, and assuming ideal conditions(i.e no heat loss during charge transfer) the initial energy of the system(consisting C1) will be equal to the final energy of the system (consisting C1 & C2).

Even with ideal connecting wires energy will be lost from the system.
 


Dadface said:
What do you know so far?

When the charged capacitor is connected to the uncharged capacitor, the charged one will discharge until its potential drops from 10V to 6V and the uncharged one is being charged till its pd is 6V. I am not sure about setting up the equations.
 


When the capacitors are connected charge flows from one to the other as you described but the total charge Q remains constant.You can write Q=CV for the first capacitor and for the parallel combination and take it from there.
 


Dadface said:
When the capacitors are connected charge flows from one to the other as you described but the total charge Q remains constant.You can write Q=CV for the first capacitor and for the parallel combination and take it from there.

Ok, let me try.

Initially, charged capacitor has Q=10C1 coulomb of charges before being connected.

After connected, the total charge flowing in the circuit is 6C1+6C2.

Since the total charge is a constant, 10C1=6C1+6C2

Therefore, C1/C2=3/2

Am i correct?

Another side question, the charge in each capacitors connected in series is the same? As for parallel, they aren't the same?
 


Your sums look good.
In series the charges are the same but the pds(voltages) are different.In parallel the pds are the same but the charges are different.
 


Dadface said:
Your sums look good.
In series the charges are the same but the pds(voltages) are different.In parallel the pds are the same but the charges are different.

Thanks Dadface for all your help.
 

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