A capacitor C1 of capacitance 5 μF is charged to a potential of 30 V using a battery. The battery is then removed and the charged capacitor is connected to an uncharged capacitor C2 of capacitance 10 μF as shown in figure. When the switch is closed charge flows between the capacitors. At equilibrium, the charge on the capacitor C2 is ____ μC.
Fig.
A capacitor C1 of capacitance 5 μF is charged to a potential of 30 V using a battery. The battery is then removed and the charged capacitor is connected to an uncharged capacitor C2 of capacitance 10 μF as shown in figure. When the switch is closed charge flows between the capacitors. At equilibrium, the charge on the capacitor C2 is ____ μC.
Correct Answer: 100
Approach Solution - 1
To solve the problem, follow these steps:
Initially, capacitor C1 is charged to a potential of 30 V. The initial charge on C1 is given by:
Q1 = C1 × V = 5 μF × 30 V = 150 μC
When the switch is closed, charge is conserved. The total charge in the system is shared between C1 and C2:
Total charge, Qtotal = 150 μC
The potential difference across both capacitors at equilibrium is the same. Let V be this potential. Using charge conservation, we have:
(C1 + C2) × V = Qtotal
V = 150 μC / (5 μF + 10 μF) = 150 μC / 15 μF = 10 V
Now, calculate the charge on C2:
Q2 = C2 × V = 10 μF × 10 V = 100 μC
The charge on capacitor C2 at equilibrium is 100 μC, which falls within the expected range of 100,100.
Thus, the charge on C2 is 100 μC.
Approach Solution -2
The correct answer is 100
Let the charge q is flown in the circuit.
So using Kirchoff’s law
\(\frac{q}{10}=\frac{150−q}{5}\)
q = 100 μC
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Concepts Used:
Capacitor
Capacitors commonly known as Condensers are passive components, similar to a resistor. In capacitors, charges are usually stored in the form of an "electrical field". Electrical and electronic circuits depend on the same which is made up of two parallel metal plates that are not connected to one another. The two plates are separated by a non-conducting insulating medium called dielectric.
Uses of Capacitors:
- DC blocking capacitors block the DC and allows only AC to certain parts of the circuit.
- These are main elements of filters.
- They possess the ability to couple a section of the circuit to another.
Types of Capacitors:
- Ceramic capacitors are created by covering two sides of their tiny ceramic disc with silver and stacking them together.
- Film Capacitors are commonly used capacitors that are made up of different sets of capacitors.
- In an electrolytic capacitor metallic anode coated with an oxidized layer used as a dielectric.
- A Paper capacitor is also known as a fixed capacitor in which paper is used as the dielectric material.
Read More: Types of Capacitors