Water, the fuel of the future.
Given that an athlete produces 200 watts per hour riding a bike, and that the average diet intake is 4000 calories per day for an athlete; calculate the percentage of energy supplied by food.
Answer: food provided 4.65 watts, or 2.3% of the energy needs for one hour per athlete, assuming the next 23 hours the athlete consumes no energy.
Now that you found out the calories in food are insufficient to supply energy needs, assume water is the major source of watts/h.
Given that the energy produced by the athlete is far greater than the energy consumed by food intakes, and assuming H20 is the source of energy, and that the average consumption of water is 4 liters per day; calculate the amount of energy extracted from H20 (water). Answer in kW/h and calories.
Answer: 4 liters of water supplied 97.7% of energy needed, which is 195 watts/h.
How much energy is there in 4 liters of water (H2O), compared to 4 liters of gasoline?
Answer: 80 KW/h. There is more energy in hydrogen and oxygen than in gasoline. Twice as much.
What percentage of energy did the human organism extracted from 4 liters of water to supply 200 watt/h?
Answer: given that there are 80 kW/h of energy in 4 liters of water, and that the consumption was 200 W/h, the answer is 2.5 %. The human organism extracted 2.5% of the power stored in water.
What is the main source of energy for a human organism?
Answer: water
How does the human organism, or plants, extract energy from water?
Does solar energy play a role in the extraction of energy from water in a living organism (explain)?
How do you extract energy from water efficiently? How do you brake the bond of Hydrogen and Oxygen using Tesla's mechanical resonant frequency? What is the mechanical resonant frequency of hydrogen, oxygen and H20? Why is it relevant?
Based on these calculations, do you foresee water to be the new fuel source to provide all energy needs on the planet?
How much energy in kW/h does the world consume daily?
If all the energy would be extracted from water, how much water is needed daily to produce the energy needed to run the world?
Can water become the source of energy in a sustainable and eco friendly world habitat?
Conversion factors:
4000 kilocalories = 4.65 kw/h
https://www.quora.com/How-much-energy-can-a-human-produce
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