It is an effect whereby a mass moving in a rotating system experiences a force (the Coriolis force ) acting perpendicular to the direction of motion and to the axis of rotation. On the earth, the effect tends to deflect moving objects to the right in the northern hemisphere and to the left in the southern and is important in the formation of cyclonic weather systems.
The Coriolis force is an apparent force that acts on objects in motion within a rotating frame of reference, such as the Earth. It results from the rotation of the Earth and affects the motion of objects moving across its surface.
This force causes moving objects, such as air masses, ocean currents, or projectiles, to appear to be deflected from their straight-line path. In the Northern Hemisphere, the deflection is to the right, while in the Southern Hemisphere, it's to the left.
The Coriolis force influences various phenomena on Earth, such as the rotation of cyclones and anticyclones in the atmosphere, the direction of ocean currents, and the path of long-range projectiles.
This force arises due to the difference in linear velocities at different latitudes caused by the Earth's rotation. Objects moving across the Earth's surface travel through different latitudes, experiencing different rotational velocities, which results in the apparent deflection caused by the Coriolis force.
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Answer:
It is an effect whereby a mass moving in a rotating system experiences a force (the Coriolis force ) acting perpendicular to the direction of motion and to the axis of rotation. On the earth, the effect tends to deflect moving objects to the right in the northern hemisphere and to the left in the southern and is important in the formation of cyclonic weather systems.
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Answer:
The Coriolis force is an apparent force that acts on objects in motion within a rotating frame of reference, such as the Earth. It results from the rotation of the Earth and affects the motion of objects moving across its surface.
This force causes moving objects, such as air masses, ocean currents, or projectiles, to appear to be deflected from their straight-line path. In the Northern Hemisphere, the deflection is to the right, while in the Southern Hemisphere, it's to the left.
The Coriolis force influences various phenomena on Earth, such as the rotation of cyclones and anticyclones in the atmosphere, the direction of ocean currents, and the path of long-range projectiles.
This force arises due to the difference in linear velocities at different latitudes caused by the Earth's rotation. Objects moving across the Earth's surface travel through different latitudes, experiencing different rotational velocities, which results in the apparent deflection caused by the Coriolis force.
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