If something is in orbit it's orbital speed is independent of its mass. Be it a gram or a tonne, it's speed depends only on its orbit; if it had a different speed it would be in a different orbit ( or none at all).
The average orbital speed is 17.882 km/s of asteroid in space
The shuttle uses the atmosphere to slow itself down from orbital speed.
It is the orbital velocity (speed and direction) or orbital speed (rate of motion). It is usually stated as "average orbital speed" but is actually "mean orbital speed."
(Escape velocity) at least 7 miles ber second. Close-Orbital velocity is about 5 miles per second.
It would fall to Earth's surface.
The earth's orbital speed has no influence or effect on its rotation.
The average orbital speed is 17.882 km/s of asteroid in space
All payloads that goes into space have to be accelerated to 14,500 miles per hour to achieve orbital orbital velocity.
The shuttle uses the atmosphere to slow itself down from orbital speed.
It is the orbital velocity (speed and direction) or orbital speed (rate of motion). It is usually stated as "average orbital speed" but is actually "mean orbital speed."
Yes, the weight distribution on a hovercraft can affect its speed. Uneven weight distribution can cause instability and affect the control of the hovercraft, potentially impacting its speed. It is crucial to maintain a balanced weight distribution to ensure optimal performance.
Weight
Orbital speed is the velocity (speed) of an object as it travels an orbital path around a reference point.
Orbital velocity refers to the speed at which a planet travels in its orbit.
The orbital energy of an object refers to the total energy it has due to its motion in orbit around another object, like a planet or moon. This energy includes both its kinetic energy from its motion and its potential energy from its position in the gravitational field. The orbital energy affects the object's motion by determining its speed and distance from the central body. Objects with higher orbital energy have greater speed and are farther from the central body, while objects with lower orbital energy have slower speed and are closer.
Weight can affect speed because a heavier object requires more force to move it, which can slow it down. This is due to the increased inertia and friction that comes with greater weight.
yes