CALCULATE THE WINDmill to its diamater. after you have got the diameter divide by 35648 and then multiply by the capacity of the air.
This depends upon external temperature, humidity of the air and air flow out side the body. Human can perspire up to one liter of sweat. So he can dissipates the the heat required to evaporate that much water.
If the windmill wouldn't swivel with the windflow, it would stop, then turn into the opposite direction :-) But fortunately wind usually not changes its direction of flow 180 degrees suddenly, so the windmill can swivel ... and continue running. Wind energy generators, which usually run autonomously, also adjust the pitch of the blades according to wind speed. Above a certain top wind speed, usually 25 m/s , they shut down, regardless of direction of flow.
Cold air is denser than warm air, so it sinks below warm air due to gravity. This sinking motion causes cold air to flow under warm air, leading to the familiar pattern of cold air near the ground and warm air above it.
No they do not. Simply put: There is a hole to place the mass air flow sensor. The best thing to do would be to purchase a new mass air flow sensor for the best results.
To visually determine if there is enough air flow across a duct mounted electric heater, you should tape a piece of cardboard to it. A small piece that can flutter in the flow of the air. If it moves wildly, there is enough air.
To secure a good air flow (or wind) to turn the blades of the windmill.
It's known as a windmill...
On a day with calm air, a windmill will not be able to generate much power as there is not enough wind to turn its blades. The still air will cause the windmill to remain motionless and not produce any energy.
Yes
Turn off the switch, generator runs out of fuel, wind not turning the windmill, solar panel at night, diode, insulation.
Energy in moving air.
it helps by giving it air and actually helps the air
windmill
Mass Air Flow sensor that measure the required fuel according to the amount of air passing and the density of it.
The kinetic energy of the moving air (wind) is converted into mechanical energy, which then turns the blades of a windmill. This mechanical energy is further converted into electrical energy through a generator connected to the windmill.
On a day when the air is still, a windmill would have potential energy stored in its structure. This potential energy can be converted into kinetic energy when the wind blows and makes the windmill blades turn.
It is another name for a windmill.