Water energy is defined by the following diagram:
So in the diagram above it is simply a representation of the energy (E) at both ends of the hose (H, H2, K);
The hose ends are connected in a line, while the end of the hose from which the energy is sent to the water tank is in reverse.
Water is a molecule and the energy released when these molecules are in equilibrium is called an electric charge.
Electric Charge = 0.6 mV/molecule
Note the relationship between electric and potential energy. The potential energy of a wire and a piece of glass, for example, is (E/2M1)2; because of the wire’s electric potential you can use that as a way to measure the voltage on the wire, and then the electric potential of the wire is (2mV/molecule). The same is very true of water.
So that’s water energy; what is it used for?
Water is used to recharge our batteries. Water’s use in batteries depends a lot on what we’re using it for.
To recharge an battery, water is not really a fuel, because you could fill your tank with it and just keep drawing a big, big, big, big, constant stream of electricity from the tank…
But most of the time we use water for something else: to flush your water, to wash dishes, to wash the dishes… This is important because there will be times when you actually have a high-power discharge and times when you don’t, and so you need to have somewhere to store that, and that is where the batteries come in.
The main purpose of the batteries are to:
Keep the electricity stored in the batteries from being lost if a load is removed;
Hold up to 1,000 amps of constant current;
Keep the batteries clean, and keep the water safe.
Because of this and because they get wet, they need to be able to survive a long period of time; they also need to be able to be filled to the point where the voltage is still high enough to charge the batteries.
For example, if you had a battery that had 400 amps of constant current (a small-sized battery in a smartphone), then you simply fill it with a hose and let it go full-load. You can let it run off-grid; there’s no power line required, and
standard reaction free energy equation and reversibility piaget, free energy biology quizlet, gibbs free energy equation solving for k chemistry, gibbs free energy charts physics, free energy equation examples