Water power is used to produce electricity - all homes schools and businesses use electricity so hydro power is just part of this.
If you mean direct water power using your own water wheel to drive some mechanism, this is rather old fashioned. Millers used to do this, but surely no-one still does this? I don't see any relevance to homes and schools, what would they do with a mechanical water wheel?
Because it needs to be purified, sterilised and distributed to homes.
drinking water for humans, water for plants and animals, irrigation and watering for agriculture, basically anything we use water for! to heat our homes, to wash our bodies, to cook our meals etc etc
Falling water is used to turn a turbine, which turns a metal shaft in an electric generator, which produces electricity Why are you talking about spelt, hardy wheat grown mostly in Europe? Falling water causes a turbine to spin, causing a generator to spin, generating electric power. The higher or bigger the dam, the more power produced for a given water drop. And also, I'm a biscuit.
yes water can increase the density of water as wood has the power to absorb water and so the density of water is drastically increased
One use is in nuclear power plants to produce steam and turn turbines to generate electricity.Nuclear bombs ^.^
Yes, hydro electricity is the same as all electricity. It is called hydro because it is made from the power of water falling. But the electricity is used in homes and businesses for heating, lighting and running machinery.
The flood in Tewkesbury in 2007 had significant effects on the town. Homes and businesses were extensively damaged, residents had to be evacuated, and there was a disruption of essential services such as water and power supply. The flood also had a negative impact on the local economy, with businesses suffering losses and ongoing recovery efforts.
The Catskill Mountains. The water is cleaned and travels 100 miles to our homes and schools.
Wind power can generate electricity through wind turbines. It can be utilized to power homes, businesses, and even entire cities. Wind power can also be used to pump water in remote locations or generate energy for offshore operations.
In a hydroelectric power plant, the energy transformation that occurs is from mechanical energy (moving water) to electrical energy. Water flow turns a turbine connected to a generator, converting the kinetic energy of the moving water into electrical energy that can be distributed and used to power homes and businesses.
Coal is burned in power plants to heat water and produce steam, which drives turbines connected to generators to produce electricity. This process is known as coal combustion. The electricity generated is then sent out for distribution through power lines to homes and businesses.
Coal is burned in a power plant to heat water, producing steam. The steam turns turbines, which are connected to generators that produce electricity. The electricity is then sent out to power homes and businesses through the electrical grid.
The power source that uses the rotation of giant magnets to create electricity is a hydroelectric power plant. In these plants, water flow turns turbines attached to generators with large magnets, which convert mechanical energy into electrical energy that is then transmitted to homes and businesses through power lines.
In Reykjavík all homes and businesses are heated by geothermal energy. Steam and hot water is drawn from beneath the surface and distributed via underground pipelines.
Hydroelectric means electric power that is derived from water, typically moving water used to power machinery that generates electricity. A famed example of this would be the Niagara Hydroelectric plant, which harnesses the energy of the Niagara River to power generators that supply millions with electricity in their homes and businesses.
Geothermal energy is collected by drilling wells into the Earth's crust to access hot water and steam. This hot water and steam are then used to drive turbines, which generate electricity. The generated electricity is then sent to the power grid for distribution to homes and businesses.
The energy from nuclear power plants is used as heat to boil water and make steam the turns turbines to generate electricity. The electricity is distributed through the power grid and powers all sorts of things from light bulbs, computers, and televisions to heavy equipment.