Einstein postulated that all objects mass, their gravity, effects local space. A ball floating on water is close to a visual example. Because of the gravity causes curves in space, very massive objects bend space deeply and it seems like down hill to less massive objects. The Earth would gladly go flying off in a vector if released from the hold the Sun and Jupiter place on it. The Sun holds us in its orbit as we hold the moon in orbit around the us. Because the Earth is 6 times more massive than our moon the Earth holds it. The Moon is falling towards us, but going around us because of its' speed. At this moment all of the activity we can see in space was caused by gravity.
The "Roche limit" is the distance within which a celestial body, like a moon or a planet, can be held together by its own gravity without being torn apart by the gravitational forces of a larger body, such as a planet or a star. If a celestial body gets too close to another massive body and crosses its Roche limit, it can be pulled apart by tidal forces. This concept is important in understanding the stability and structure of celestial bodies in space.
there both roundThey are both part of the solar system. They both are made of matter. they are both a part of each other's gravitational pull.
The gravitational forces of the moon and sun pull on the Earth's oceans, causing them to bulge out. This creates high tides where the bulges occur and low tides in other areas. The combined effect of the moon and sun's gravitational forces results in the regular pattern of tides we observe on Earth.
Yes. the mutually attracting forces of gravity hold the moon and earth together and cause the earth's tidal forces.
The sun primarily has potential energy due to the gravitational forces that hold it together. This potential energy is released as heat and light energy through nuclear fusion reactions occurring in its core.
The sun holds celestial bodies in the solar system through its gravitational pull. This gravitational force keeps planets, moons, asteroids, and other objects in orbit around the sun. The balance between the sun's gravity and the forward motion of the celestial bodies keeps them moving in stable orbits.
Gravitational pull is a force that has an affect on absolutely everything in this universe
The "Roche limit" is the distance within which a celestial body, like a moon or a planet, can be held together by its own gravity without being torn apart by the gravitational forces of a larger body, such as a planet or a star. If a celestial body gets too close to another massive body and crosses its Roche limit, it can be pulled apart by tidal forces. This concept is important in understanding the stability and structure of celestial bodies in space.
gravitational
there both roundThey are both part of the solar system. They both are made of matter. they are both a part of each other's gravitational pull.
not outerspace that's why astronauts use gravitational suits to pull the human body down on the moon outerspace.but on earth yes
Gravitational force between small objects such as two people standing close to each other is extremely weak compared to other forces acting on them, such as electromagnetic forces that hold their body molecules together. As a result, the gravitational force between small objects is typically too small to be readily observed or measured.
When a yo-yo is hanging motionless from a string, two forces act on the string: tension force, which is the force exerted by the string to hold up the yo-yo, and the gravitational force, which is the force exerted by Earth pulling the yo-yo down. These two forces are equal in magnitude and opposite in direction, resulting in a state of equilibrium where the yo-yo does not accelerate.
forces hold matter together
The gravitational pull of the Sun
London dispersion forces (also known as van der Waals forces) hold molecular solids together. or Intermolecular forces
Hold the power button down, it forces a power shut off then you can restart it