What the water is contained in (seas, rivers, lakes, etc.), how much of it there is and the means by which you intend to use this water for power generation.
The best way of using water to generate power is extracting the Deuterium (2H) atoms and using them with Tritium (3H) to generate energy by fusion. Unfortunately, this technology is still somewhat experimental.
The velocity of the flowing water is the primary factor that determines how much sediment it can carry. Higher velocity can transport larger and heavier particles, while lower velocity can only carry finer sediments.
The total magnification of a compound microscope is calculated by multiplying the magnification power of the objective lens by the magnification power of the eyepiece. This determines how much larger an object will appear when viewed through the microscope.
An example of power in physics is when a light bulb converts electrical energy into light and heat. The power of the light bulb is determined by the rate at which it converts energy, measured in watts. This power output determines how bright the light will be or how much heat is generated.
The refractive index of the material the prism is made of determines how much a particular color refracts as it passes through the prism. Different colors of light have different wavelengths, which causes them to refract at slightly different angles due to the material's refractive index.
The refractive index of the material the prism is made of is the main factor that determines how much a particular color refracts as it passes through a prism. Different colors of light have different wavelengths, which interact differently with the material's refractive index, causing them to bend by different amounts.
power p=981*(row)*w*h watts where, (row)=density of water(1000) w=discharge in meter cube per sec h=head in meter....
What condition is it in? That determines the value.
What Condition is it in? That determines the value.
It depends upon power of phosphorescent light. The power determines energy consumption.
The specific heat of water determines how much energy is needed to heat water.
The velocity of the flowing water is the primary factor that determines how much sediment it can carry. Higher velocity can transport larger and heavier particles, while lower velocity can only carry finer sediments.
a lot
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as for crankshaft rotates for a certain rpm ...... and with respective rpm we need it to come to rest and the brake applied to it with much power..... determines how much power we need to stop it at a certain rpm..... these brake power is known as brake horse power..
The amount of available water determines how much the area can be developed, and people need to use a certain amount of water to live.
They indicate the density of the seawater, which determines how much lift-force the water can apply to the ship. So, basically, the lines show how much cargo a ship can hold in different water bodies.
No way of knowing with only that information. The complete engine determines the horse power it may produce be it a 1 cylinder or multiple cylinders.