It is possible to burn peanuts and to use the fire to heat water, but that is an extremely wasteful choice of fuel. Peanuts are much more valuable as food (at least, for those who are not allergic to them) than they are as fuel. It is also possible to burn paper currency, and use the fire to heat water. Quite a lot of things can be burned.
If you mean the water in the oceans, it is the sun's energy that does this. Water absorbs Kinetic Energy to 'heat up'. Therefore, any energy source that can impart Kinetic Energy to Water will heat it.
kinetic energy turns into heat energy which heat's the water SLOWLY (keep frantically moving) ;D
The energy released when steam condenses to water is called the latent heat of vaporization. This energy is released in the form of heat as the steam loses its thermal energy and transitions back into liquid water.
When water evaporates, heat from the surroundings is absorbed to break the bonds between water molecules, turning liquid water into water vapor. This heat energy is stored in the water vapor as latent heat, increasing its kinetic energy.
When natural gas is used to heat water, a chemical energy transformation occurs. The chemical energy stored in the natural gas is released through combustion, producing heat energy. This heat energy is then transferred to the water, increasing its temperature. Thus, the process converts chemical energy into thermal energy.
yes
I believe yes because each peanut has potential energy and 4 peanuts have more potential energy than just one.
Yes it can by the chemicals being released to boil water.
Peanuts have more energy in the form of calories because they are rich in healthy fats, protein, and carbohydrates. These nutrients provide a dense source of energy that can be metabolized by the body to produce heat and fuel various functions.
yes they could take over the world
The energy giving nutrient is " Carohydrates" .. can also be (vit B) Peanuts have 6.1 mg of carbohydrates. Therefore the nutrient in a peanut from which energy can be obtained is carbohydrates.
They don't
Several types of energy can be used to heat water. Electric energy can heat water, like in a coffee maker. Chemical energy can be used as in a gas stove.
No energy, no heat. So you cannot add heat.
Heat energy. This absorbed energy warms the land and water, leading to an increase in temperature.
Water molecules retain energy due to heat transfer.
The amount of heat energy transferred to hot water depends on various factors such as the initial and final temperatures of the water, the mass of the water, and the specific heat capacity of water. The formula to calculate heat energy transferred is: Q = mcΔT, where Q is the heat energy, m is the mass of the water, c is the specific heat capacity of water, and ΔT is the change in temperature.