Absolutely! Electric energy, kinetic energy, sound waves, light waves, heat ... all kinds of energy travel very well through water.
In a high reservoir waiting to go through a hydroelectric generator the water's main energy is potential energy because that is converted to kinetic energy before the water meets the turbine blades.
Energy moving through a body of water is scientifically called hydro energy. When hydro energy is present, the water cycle changes.
steam. It has to go through a phase change, which takes additional energy to get there.
When water freezes, it will go through an exothermic reaction, which is a chemical reaction that releases energy in the form of light or heat. It is expressed in a chemical equation as: reactants --> products + energy
what kind of energy travels through water better than air
By letting it run downhill and then go through a water turbine
Energy moving through a body of water is scientifically called hydro energy. When hydro energy is present, the water cycle changes.
steam. It has to go through a phase change, which takes additional energy to get there.
When water freezes, it will go through an exothermic reaction, which is a chemical reaction that releases energy in the form of light or heat. It is expressed in a chemical equation as: reactants --> products + energy
what kind of energy travels through water better than air
Plants need Carbon Dioxide (CO2), water (H2O), and energy (sunlight) in order to go through photosynthesis.
current
Through evaporation in the water cycle.
Water stored behind a dam is an example of potential energy (energy of position). As the water flows through the dam, some of the water's potential energy is converted into kinetic energy (energy of motion), which is typically further converted into electrical energy through the use of spinning magnets and coils of wire.
Earthworms will eat through anything in the soil and get they're energy and water from what they consume.
they transfer energy through sound water and air.
Evaporation and boiling are similar because both of them allow water to go through a physical change and have the water turn into a gas, by gaining energy.