No, there is no mass there to have any gravitational force.
Physically put, No. A vacuum has no particles of gas in it, but there is still gravity it just has nothing to act upon. Philisophically, it is much like the tree falling in the woods with no one there to hear it. That is to say the gravity only exists if it can be perceived by one of the senses.
Gravitational force is the dominant force in space because it is always attractive and acts over long distances. In the vast emptiness of space, gravity is the force that governs the interactions between celestial bodies, such as planets, stars, and galaxies. Its influence is particularly strong due to the large masses of these objects.
In deep space where the gravitational force is zero, you would be essentially weightless. Weight is the force exerted by gravity on an object, so in the absence of gravity, there would be no force acting on you to give you weight.
The gravitational field strength is important in understanding how objects move in space because it determines the force of gravity acting on them. This force affects the motion and interactions of objects, such as planets and satellites, in space. By knowing the gravitational field strength, scientists can predict and explain the behavior of these objects in space.
Gravitational pull. It is pulling us towards the centre of the Earth. It is not visible . In space there is no gravitational force so we fly in space
Yes.
in space there is no matter, no gravitational field, no electrical field. which results into good vacuum.
There is oxygen and gravitational force on earth but there is no oxygen and gravitational force
No, there is not.
A black hole is an area in space that acts like a vacuum cleaner, exerting a strong gravitational pull on surrounding matter and light. This gravitational force is so powerful that not even light can escape from it, giving it its characteristic black appearance.
Gravitational force is not absent in space; it is just weaker in areas far from massive bodies. In deep space, where there are no massive objects nearby, the gravitational force is relatively weak. Astronauts onboard spacecraft appear weightless because they are in a state of free fall around the Earth, experiencing a similar acceleration due to gravity as the spacecraft they are in.
Physically put, No. A vacuum has no particles of gas in it, but there is still gravity it just has nothing to act upon. Philisophically, it is much like the tree falling in the woods with no one there to hear it. That is to say the gravity only exists if it can be perceived by one of the senses.
Another word for force is gravitational pull in space terms.
If a football were thrown in space during a spacewalk, it would continue moving in a straight line at a constant velocity due to the lack of air resistance or gravitational forces to slow it down. In the vacuum of space, there is no atmosphere to affect its trajectory, so it would keep moving until it encounters another force or object.
Gravitational pull still acts in space, but when you are in space, you are too far from the earth to feel any of its gravitational force. Gravitational force between two objects depends on their distance from each other and the further two objects are apart, the weaker the force of gravity is. So when we are in space, the earth's gravitational pull is still acting on us, but it is too far away for us to feel it.
Gravitational forces act between every two masses. It makes no difference what is in the space between them, or what is not there, or how it came to be there or not to be there. Gravity does not care. Nothing in between the masses will make the gravitational forces any stronger or any weaker.
gravitational force