Two capacitors of capacitance $$2\, \mu F$$ and $$4\, \mu F$$ are charge to $$200\, V$$ and $$100\, V$$ respectively. They are then connected in parallel to each other. What is the potential across each capacitor ?
A
$$116\, V$$
B
$$133\, V$$
C
$$148\, V$$
D
$$164\, V$$
Open in App
Solution
Verified by Toppr
Correct option is B. $$133\, V$$
Was this answer helpful?
0
Similar Questions
Q1
Two capacitors of capacitance $$2\, \mu F$$ and $$4\, \mu F$$ are charge to $$200\, V$$ and $$100\, V$$ respectively. They are then connected in parallel to each other. What is the potential across each capacitor ?
View Solution
Q2
Two capacitors of capacitances 4μF and 6μF are connected across a 120 V battery in series with each other. What is the potential difference across the 4μF capacitor?
View Solution
Q3
Two capacitors of 10pF and 20pF are connected to 200V and 100V sources respectively. If they are connected in parallel by the wire, what is the common potential of the capacitors?
View Solution
Q4
Three capacitors C1=2μF,C2=μF and C3=4μF are separately charged with battery of potential difference 40V,30V and 10V respectively, and then disconnected. They are then connected to each other as shown. the charge on the capacitor C3 is 40n13. Find n
View Solution
Q5
Two capacitors of capacitance 2μF and 4μF respectively are connected in series. The combination Is connected across a potential difference of 10 V. The ratio of energies stored by capacitors will be