F = 0.00256 * (MPH of Wind) ^2
In order to calculate the force we would net to know the wind speed of the tornado. The door has an area of 1.746 square meters To calculate the pressure load first find the pressure by squaring the wind speed (in mph) and multiply it by 0.123 to get the pressure in pascals, and then multiply by the surface area and the drag coefficient (which in this case is 2.0 for a flat surface). To give a good range, EF0 tornado winds start at 65 mph. Such a wind would exert a force of approximately 1,800 newtons (400 pounds). The highest winds ever recorded in a tornado were 302 mph. Such a wind would exert about 39,000 newtons (8,800 pounds) of force.
Its the earth, wind and the fire
No. It is affected by localised pressure differences, thermals - which depend on the the heat-retention property of the surface, surface contours (including man-made ones).
Kites stay in the air because of the force exerted on them by moving air (wind). If there were no wind then the kite would fall to the ground. This is because gravity is always trying to pull the kite down. Now the force of wind comes in to play to keep the kite in the air. The kite is at an angle to the ground, and it looks like this slash when it is flying in the air ---> / That is important because as the kite catches the wind two orthogonal forces are applied to the kite. One that is anti-parallel to gravity (Meaning the force is pointing up.) and one that is orthogonal to gravity. We don't necessarily care about the orthogonal force for our example so let's forget about it. The force generated on the kite that is anti-parallel to gravity is what keeps it in the air, so long as the anti-parallel force is greater than the weight of the kite.
wind and its direction amount of force applied may differ each throw aiming skills
When a strong wind blows at you, you can feel the urge to lean forward to compensate the force applied by the wind on your body surface, so not to tip over. Hence, wind applies pressure, which is the force divided by the projected area of the surface. Wind pressure is related to the square of the wind speed.
The surface wind speed has no effect on the Coriolis Force. The Coriolis Force is dependant on the rotation of Earth that has the effect on surface wind and not the other way around
Wind
It provides force for heat
because with the larger surface area being lower on the mast and the smaller surface area on the upper part. equalizing the torque along the mast from the force of the wind.
runnig water, and wind :)
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A force-meter measures the force of an object pulled along a surface.
The effect that a reduction in surface wind speed will have on the Coriolis force is to reduce the effect of the Coriolis force. Winds blowing at higher speeds are pulled on more by the Coriolis force, which somewhat alters the direction in which they blow.
The force per square foot that a 100 mile per hour wind produces is about 65 pounds. The force goes down almost exponentially from there.
friction
Wind chill is the calculation of the temp. and the wind speed.