ATP (with 3 Phosphate Groups) would be the full charged battery.
ADP (with 2 Phosphate Groups) would be the partially charged battery. To release energy, the bond between the 2nd and 3rd phosphate group is released. To store energy, a bond is made between the 2nd and 3rd phosphate group.
ATP (with 3 Phosphate Groups) would be the full charged battery. ADP (with 2 Phosphate Groups) would be the partially charged battery. To release energy, the bond between the 2nd and 3rd phosphate group is released. To store energy, a bond is made between the 2nd and 3rd phosphate group.
The first law of thermodynamics can be used to explain the operation of a battery. The law states that energy can neither be created nor destroyed. This can be used to explain how the energy of a battery is converted from chemical to electrical energy.
because it is portable
A battery stores chemical energy which is released in the form of electricity.
A battery stores chemical energy which is released in the form of electricity.
An energy transformation I've observed in class is chemical energy from a battery to electrical energy.
Potential chemical energy is released as electrical energy when the external circuit is connected.
A normal battery also a car battery, oil, food and etc.
when a battery is charged the electrons are received by the acidic compound in the battery. then it is stored in battery. then released to anything you wanted. "if you think this won't work buy a new battery instead of asking such question in web"
Inside a battery, stored chemical energy is released as electric energy which can then power devices. This energy is stored in different ways in different types of batteries.
A flashlight may not light if there is no energy source or in this case battery.
They contain chemical energy. If you are charging a battery, it has electric energy.