First of all: “yes”. This is because the human body is capable of releasing energy. The body can do this for about 5 minutes and then shut down.
It is this period of release energy, that we are looking for. As we said before: we are trying to generate energy and we have an idea of where to go there from science.
But, if this energy has to be stored in the energy storage tank, how would that happen?
This is a big question, and here is a very short answer: the body could store this energy in the energy storage tank, but, also, we cannot store energy (and hence the possibility of energy) as long as we want, because we need to “fill up the tank”.
In other words, the battery is used to store only 2 minutes of free energy, and the other 15 minutes to make the system work in a different way (for example, the battery can be used to turn the motor on and off) but the battery is never used for that purpose in every cycle of the motor.
If it was used only for 2 minutes of free energy every day and 15 minutes every weekend, the body would quickly start to use the battery for different purposes than they were intended (for example, if the batteries were used as a solar charger).
The main problem is how is energy stored? To store energy the body needs to release energy in the form of heat.
It is this heat, that makes the temperature high within cells, and this temperature is needed for storing energy. So, the temperature is set artificially low (for example, it is 0 degrees and then the cells start to heat up a bit, and once it gets to the required temperature, the battery stops working).
Here is the trick of energy storage: the body needs to be able to store energy in different ways. So, for example, in a battery you might store energy in a structure called a capacitor which is simply a metallic cap. In this case, the cap would only absorb energy, but the rest would be wasted in whatever use is necessary in the next cycle. It’s a waste.
As far as the actual storage is concerned, in a capacitor, a charge is made when it gets the voltage needed for another charge to flow. That is, the capacitor holds as much charge as it is capable of holding and only releases this charge as needed.
A capacitor can store 10 times the charge as in a
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