Which statement is true about the turbine in a hydroelectric dam
it would be
It is turned by wind and provides a direct current.
Turbines in hydroelectric power are spun by the force of flowing water from a dam or reservoir. The water flowing through the dam exerts pressure on the turbine blades, causing them to rotate. This mechanical energy is then converted into electricity by a generator connected to the turbine.
Turbines are placed at the bottom of a hydroelectric dam to take advantage of the pressure created by the water stored in the reservoir above. The height difference between the water level in the reservoir and the turbines generates potential energy, which is converted into kinetic energy as the water flows through the turbines. Placing the turbines at the bottom allows for maximum energy extraction from the falling water.
A hydroelectric power plant generates electricity by using the kinetic energy of falling water at a dam to turn turbines connected to generators. The force of the flowing water spins the turbines, which then produce electricity through electromagnetic induction.
Hydroelectric energy is recovered by harnessing the power of flowing water to turn turbines, which are connected to generators that convert mechanical energy into electrical energy. Water is usually stored in a reservoir behind a dam and released through turbines to generate electricity as it flows downstream.
The source of this renewable energy is water. As the river flows and spins the turbines in the dam, it generates clean and sustainable hydroelectric power. This energy production method is environmentally friendly and does not produce greenhouse gas emissions.
A hydroelectric dam uses the force of flowing water to drive turbines which generate electric power.
A hydroelectric dam uses the force of flowing water to drive turbines which generate electric power.
Hydroelectric power works by running water over the turbines of a power plant inside of a dam. The power of the rushing water turns the turbines and produces electricity.
Take for example, a dam. Water flows through the gates (when opened) of the dam and turn turbines. Inside these turbines are coils of copper usually that generate electricity.
Turbines in hydroelectric power are spun by the force of flowing water from a dam or reservoir. The water flowing through the dam exerts pressure on the turbine blades, causing them to rotate. This mechanical energy is then converted into electricity by a generator connected to the turbine.
The hoover dam works by spouting water out of penstocks and into a man-made river, which then enters the dam and the moving water turns the turbines of the generator, which produces the energy we need to power things.
Turbines are placed at the bottom of a hydroelectric dam to take advantage of the pressure created by the water stored in the reservoir above. The height difference between the water level in the reservoir and the turbines generates potential energy, which is converted into kinetic energy as the water flows through the turbines. Placing the turbines at the bottom allows for maximum energy extraction from the falling water.
when they build a dam they make it to where the water falls down and turns turbines. The turbines power generators that make electricity. it is actually pretty simple
To get enough hydraulic head to be able to consistently drive the turbines even in dry seasons.
A hydroelectric power plant generates electricity by using the kinetic energy of falling water at a dam to turn turbines connected to generators. The force of the flowing water spins the turbines, which then produce electricity through electromagnetic induction.
hydroelectric is useful, it powers alot of our country, such as the Hover Dam, which powers a lot of Nevada. Hydroelectric power is cheap just like wind turbines because you just hvae to pay for the machine.
Typically, hydroelectric power station appears to be a dam holding back a reservoir of water. Inside are turbines that turn the water to steam to produce electricity.