Question

Power available in the wind increases as the square of the velocity of the wind.

Answer 1

Therefore, the power (i.e. energy per second) in the wind hitting a wind turbine with a certain swept area is given by simply inserting the mass per second calculation into the standard kinetic energy equation given above resulting in the following vital equation: Power = 0.5 x Swept Area x Air Density x Velocity3

Answer 2

Answer:

Velocity is the speed of wind and the speed of wind is directly proportional to the amount of energy produced by such activities.

The turbine turn in the production of energy is vibrant when the velocity of the wind is high.

Explanation:

• The rate at which the energy is produced in an environmental more so in the wind mills , the velocity of the wind determine the power availability.

• It is evidenced and found that as the square meter of the wind decreases, the velocity of the wind increases.

• The velocity of wind is therefore inversely proportional to the velocity of wind per square, this velocity of ind is directly proportional tp the amount of energy which is produced hence high or low availability of power.

• The wind can equally lead to the absence of power as it can damage the production process