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The formula to calculate the acceleration caused by the Coriolis term is: f=2*omega*sin(phi)*v where: -omega is the rotating speed of the Earth around its z-axis (= +/- 2pi radians per 86400 seconds) -phi is the latitude -v is the speed of the object. The get it`s magnitude, simply multiply by the mass of the object.
A balanced group of forces acting on the object has no effect on its motion. The object continues moving in a straight line at constant speed.
The object will speed up change direction or slow down.
No, but the slope of the graph does.
bend to the right of their motion
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 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
The Coriolis effect is not the tendencey for wind to go from high to low pressure. The Coriolis effect is the tendency for wind to be deflected relative to Earth as this flow occurs. It is a consequence of earth's rotation and the tendency of matter to resist changes in speed and direction.
Time in no way has an effect on speed.
Time in no way has an effect on speed.
no
The reason clouds move is from the wind. And also because the coriolis effect. (the effect that revolves the earth, help the winds exceed original speed.
None.
The formula to calculate the acceleration caused by the Coriolis term is: f=2*omega*sin(phi)*v where: -omega is the rotating speed of the Earth around its z-axis (= +/- 2pi radians per 86400 seconds) -phi is the latitude -v is the speed of the object. The get it`s magnitude, simply multiply by the mass of the object.
more friction = less speed
Speed is relative to the speed of light and gravity. So gravity could effect speed.
It can change its speed or direction.