A capacitor `C = (2.0 +- 0.1)muF` is charged to a voltage `V = (20 +- 0.5)` volt. Calculate the charge Q with error limits.

A capacitor of capacitance C = 2.0 +- 0.1 mu F is charged to a voltage V = 20+- 0.2 V . What will be the charge Q on the capacitor ? Use Q = CV .

A capacitor of capacitance (2.0pm0.1)muF is charged to a voltage V= (2.0pm0.2)"volt" . What will be the charge on the capcitor?

A potentail difference of V = (20 +-1) volt is applied across a resistance of (8.0 +-2) ohm. Calculate the current with error limits.

A capacitor of 0.75 muF is charged to a voltage of 16 V. What is the magnitude of the charge on each plate of the capacitor ?

A capacitor of capacitance C_1 = 1.0muF charged upto a voltage V = 110 V is connected in parallel to the terminals of a circuit consisting of two uncharged capacitors connected in series and possessing the capacitance C_2 = 2.0 muF and C_3 = 3.0muF . What charge will flow through the connecting wires?

A capacitor of capacitance C_(1) = 1.0 muF charged up to a voltage V = 110V is connected in parallel to the teminals of a circuit consisting of two uncharged capacitors connected in series and possessing the capacitances C_(s) = 2.0 muF and C_(s) = 3.0 muF . What charge will flow through the connecting wires ?

A capacitor of capacitance C_(0) is charged to a voltage V_(0) and then isolated. An uncharged capacitor C is then charged from C_(0) , discharged and charged again , the process is repeated n times. Due to this, potential of the C_(0) is decreased to V, then value of C is :

A capacitor of capacitance C_(1) = 1.0 muF carrying initially a voltage V = 300 V is connected in parallel with an uncharged capacitor of capacitance C_(2) = 2.0 muF . Find the increment of the electric energy of this system by the moment equilibrium is reached. Explain the result obtained.

A capacitence of C_(0) is charged to a potential V_(0) and then isolated. A small cpacitor C is then charged from C_(0) , discharged and charged again, the process bing repeated n times. Due to this, potential of the large capacitor is decreased to V . find the capacitance of the small capacitor. is it possible to remove charge on C_(0) completely in this way?