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our body can not feel velocity (without frame of reference) , it feels only acceleration. motion sickness is caused due to excessive acceleration, and as we know running can not cause an acceleration of that great magnitude so we can only get exhausted and not feel motion sickness.
A fictitious force caused by rotation - it feels as if a force pushes you towards the outside. The magnitude of the ficticious acceleration is equal to the real centripetal acceleration: a = v2/r. The corresponding force can be obtained from Newton's Second Law.
the acceleration of gravity on earth is one gravity. A G force is mass x acceleration so if you are accelerating at 5 gravity, as in a rocket takeoff, you experience a 5G force. If you weigh 100 pounds, a 5G force feels like 500 pounds. Those upside down roller coasters can give you up to 3G force.
The force of gravity on matter is roughly 9.81 meters/(second^2)First of all gravity is not a force, it is an acceleration. The value 9.81 m/s2 is the acceleration near the earths surface., whose units are [L]/[T]2 or m/s2 in SI units. Force, according to Newton, is F=ma, where force and acceleration are vectors and the units of force are [M]*[L]/[T]2 or kg*m/s2 in SI units and are commonly referred to as newtons or N. So the force an object feels on earth's surface depends on its mass. Force will also vary if you are considering an acceleration not due to earth's gravity.
tired is how you feels
4m /s
If the lift is in free fall, any riders will feel "weightless". Uniform downward acceleration will *only* produce "weightlessness" if the acceleration is equal to the acceleration due to gravity (id est, acceleration in free fall).
our body can not feel velocity (without frame of reference) , it feels only acceleration. motion sickness is caused due to excessive acceleration, and as we know running can not cause an acceleration of that great magnitude so we can only get exhausted and not feel motion sickness.
Einstein explored how force is related to acceleration in relativity. In general relativity, a force is a direct result of acceleration. For example, when one feels an acceleration or deceleration, they are actually feeling a force exerted on them. Under this reasoning, the force that an accelerating elevator exerts on your body is synonymous to the force that gravity exerts on your body.As for an equation, F=(γ3) ma
A fictitious force caused by rotation - it feels as if a force pushes you towards the outside. The magnitude of the ficticious acceleration is equal to the real centripetal acceleration: a = v2/r. The corresponding force can be obtained from Newton's Second Law.
The acceleration of gravity on the moon is about 1/6th the acceleration of gravity on earth. Any mass on the earth's surface feels about 6 times the downward force that it would feel on the surface of the moon.
One feels the changes in velocity, or acceleration, when the motion of the vehicle changes.
check transmission fluid level
2nd: F = m *a The force an object feels is equal to its mass times its acceleration. 3rd: For every action there is an equal and opposite reaction.
Free fall. The acceleration is perfectly balanced by the force, so it feels like being completely at rest, with everything else moving.
the acceleration of gravity on earth is one gravity. A G force is mass x acceleration so if you are accelerating at 5 gravity, as in a rocket takeoff, you experience a 5G force. If you weigh 100 pounds, a 5G force feels like 500 pounds. Those upside down roller coasters can give you up to 3G force.
mass air flow sensor is bad - my guess is