The energy stored in a battery can be calculated using the formula ( E = V \times Q ), where ( E ) is energy in joules, ( V ) is voltage in volts, and ( Q ) is charge in coulombs. For a 6 V battery storing 12 coulombs of charge, the energy would be ( E = 6 , \text{V} \times 12 , \text{C} = 72 , \text{J} ). Therefore, the battery stores 72 joules of energy.
A battery stores chemical energy which is released in the form of electricity.
CAPACITOR'S REACTANCE CHANGES WITH FREQUENCY WHEREAS A BATTERY'S RESISTANCE IS FIXED. ALSO BATTERY STORES ENERGY AND IS EXPRESSED IN UNITS AS AMPERE-HOURS, WHERE AS CAPACITOR STORES CHARGE AND AND IS EXPRESSED IN UNITS AS MICRO / NANO FARADS
None. What the battery stores is chemical energy. It creates electrical flow by converting chemicals from one form to another.
A battery stores potential energy through a chemical reaction that creates a buildup of electrical charge. When connected to a circuit, the stored energy is released as electrons flow from the battery through the circuit, powering devices.
A battery stores chemical energy which is released in the form of electricity.
"A battery stores electrical energy."
The battery stores chemical energy but releases it as electrical energy.
The Battery, if you are meaning electrical charge in a laptop?
A battery stores chemical energy and converts it into electrical energy when connected to a circuit.
A battery.
The basic idea is that electrical energy is converted into chemical energy, which is what the battery stores.
Usually as chemical potential.