An object with a larger mass and rotating at a faster speed will produce the most centrifugal force. The force increases with both the mass of the object and the square of its velocity.
An object rotating at a high speed or a heavier object rotating at a slower speed would produce the most centrifugal force. The centrifugal force depends on the mass of the object and the square of the rotational speed.
C. Swinging arms fast in circles with arms out would likely produce the most centrifugal force because the increased speed and larger radius of arm movement would result in greater outward force. This action creates a greater tendency for objects to move away from the center of rotation.
Centrifugal force is a fictitious force that appears to act outward on an object moving in a curved path. It is a vector force because it has both magnitude and direction, always pointing away from the center of the curve.
I would expect an object with a large mass to require the most force to move because more force is needed to overcome the inertia of the object.
A "Centrifugal" force is a fake force. For example, if a person were to be spun in a circle, that person would feel like there was a force pulling them away from the center. However, that is not the case. The mass of the person has inertia and tries to escape the circle in a direction tangent to the circle at the point they are at.
An object rotating at a high speed or a heavier object rotating at a slower speed would produce the most centrifugal force. The centrifugal force depends on the mass of the object and the square of the rotational speed.
C. Swinging arms fast in circles with arms out would likely produce the most centrifugal force because the increased speed and larger radius of arm movement would result in greater outward force. This action creates a greater tendency for objects to move away from the center of rotation.
Centrifugal force is a fictitious force that appears to act outward on an object moving in a curved path. It is a vector force because it has both magnitude and direction, always pointing away from the center of the curve.
Then the moon would fall on us and we would start eating spaghetti.
The earth takes the shape of an oblate ellipsoid due to centrifugal forces perpendicular to the axis of rotation. there is zero centrifugal force at the poles and the force increases to a maximum at the equator. Other relatively minor variations in the shape of the earth are due to variations in the density of the crust and geomorphological processes. The centrifugal force acts to reduce the weight of the water in the equatorial hole, and the water would rise there to greater height. Newton then argued that water anywhere would rise to the same level
Yes a central magnet rotating with an array of magnetic material surrounding it spun at the relative speed so as not to defeat the magnetic field would create a centrifugal arrangement if that is the query.
Centrifugal force
they would produce corn
they would produce corn
I would expect an object with a large mass to require the most force to move because more force is needed to overcome the inertia of the object.
A ball park figure for the weight of a double decker bus might be about 15,000 kilograms. But to calculate the centrifugal force on a turbine blade with this hanging from it would require the blade length and the rotational speed of the turbine.
A "Centrifugal" force is a fake force. For example, if a person were to be spun in a circle, that person would feel like there was a force pulling them away from the center. However, that is not the case. The mass of the person has inertia and tries to escape the circle in a direction tangent to the circle at the point they are at.