When experiencing gravitational force, 1 gram feels like a very small amount of weight or force pulling down on an object. It is a very subtle sensation that may not be easily noticeable.
Experiencing weightlessness means feeling like there is no gravitational force acting on your body, causing you to float or feel light as if you are in space.
When experiencing an acceleration of 2gs, you would feel a force twice as strong as the normal force of gravity. This would feel like a strong pressure pushing you back into your seat, similar to the feeling you get when riding a fast roller coaster.
Experiencing 2G force feels like having twice the normal force of gravity pulling on your body. This can make you feel heavier and may cause discomfort or strain, especially during sudden changes in speed or direction.
When experiencing acceleration, 1g feels like the normal force of gravity pulling you down. It is the same feeling as standing on the ground without any additional forces acting on you.
The gravitational force between Stephen and Andy is very small because they have much less mass than objects like Earth. This force is negligible compared to the effects of the Earth's gravity pulling them down, so they don't feel the gravitational force between each other.
Experiencing weightlessness means feeling like there is no gravitational force acting on your body, causing you to float or feel light as if you are in space.
thats because only you can feel your feelings ...for example if you fall down and get hurt it will hurt you but it won't hurt me,coz you are the one who got hurt and just like that your teacher won't feel and see the effect of earth's gravitational force on you but she will feel and see earth's gravitational force on her.(your question is a little dumb)
When experiencing an acceleration of 2gs, you would feel a force twice as strong as the normal force of gravity. This would feel like a strong pressure pushing you back into your seat, similar to the feeling you get when riding a fast roller coaster.
Experiencing 2G force feels like having twice the normal force of gravity pulling on your body. This can make you feel heavier and may cause discomfort or strain, especially during sudden changes in speed or direction.
When experiencing acceleration, 1g feels like the normal force of gravity pulling you down. It is the same feeling as standing on the ground without any additional forces acting on you.
The gravitational force between Stephen and Andy is very small because they have much less mass than objects like Earth. This force is negligible compared to the effects of the Earth's gravity pulling them down, so they don't feel the gravitational force between each other.
No. The gravitational force is a different force from magnetism, and depends only on the mass and the distance. Specifically, a body does not need to rotate to have gravitational force.
You cannot feel the gravitational attraction between you and an object because the force of gravity is very weak compared to the other forces acting on you (such as electromagnetic forces). Additionally, other factors like the Earth's gravitational field are much stronger, so you are not as sensitive to the gravitational attraction between you and smaller objects.
A person does feel a gravitational force between themselves and another person, but its effect is extremely small compared to other forces they experience, like the force of the ground pushing up on them due to their weight. Additionally, the force between two people is much weaker than the force between a person and a planet like Earth.
yes
Gravitational force depends on mass, so larger objects like planets and stars have a stronger gravitational pull. This is why we tend to notice the gravitational force of massive objects more, as their effects are more pronounced on smaller objects like us on Earth.
mass by acceleration, as in a large object that spins quite fast, like the earth, will have a lot of gravitational force.