No
The theory that matter distorts space is known as Einstein's theory of general relativity. According to this theory, massive objects like stars and planets cause a curvature in the fabric of space-time, which we perceive as the force of gravity. This distortion of space-time explains how objects with mass attract each other.
Yes, Earth's gravity affects space by curving it, as described by Einstein's theory of general relativity. Gravity warps space-time, causing objects to move in curved paths around massive objects such as planets and stars. This effect is most noticeable in the orbits of planets around the sun.
Einstein's general theory of relativity looks at the impact of gravitational force on the curvature of space-time, linking the presence of mass and energy to the bending of spacetime. This theory explains how objects with mass interact and how gravity influences the motion of objects in the universe.
Yes, space itself does not have gravity as it is a vacuum. However, massive objects like stars and planets create gravity due to their mass. This gravity causes objects to be attracted towards them in space.
Not only in space - gravity is universal. The force of gravity is affected by the distance, and by the masses involved.
yes. there is no such thing as the gravitational pull however. look up Einsteins theory of special relativity. the bend of space is what gravity really is.
The theory that matter distorts space is known as Einstein's theory of general relativity. According to this theory, massive objects like stars and planets cause a curvature in the fabric of space-time, which we perceive as the force of gravity. This distortion of space-time explains how objects with mass attract each other.
Albert Einstein is best known for his theory of relativity, which includes the famous equation E=mc^2. This theory revolutionized our understanding of space, time, and gravity.
Yes, Earth's gravity affects space by curving it, as described by Einstein's theory of general relativity. Gravity warps space-time, causing objects to move in curved paths around massive objects such as planets and stars. This effect is most noticeable in the orbits of planets around the sun.
Albert Einstein's biggest discovery was the theory of relativity, which revolutionized our understanding of space, time, and gravity. This theory is comprised of two parts: special relativity and general relativity. It has had a profound impact on physics and cosmology.
The force of gravity between an object and Earth keeps objects from floating into space. Gravity acts as a force of attraction that pulls objects towards Earth's center, preventing them from drifting off into space.
Objects float in space because there is no gravity to pull the objects down. While on earth there is gravity so it pulls the objects to the ground.
Gravity bends space by creating a curvature in the fabric of spacetime, as described by Einstein's theory of general relativity. This curvature is what causes objects to move along curved paths in the presence of gravitational forces.
Einstein described gravity as a warping of the fabric of space-time itself rather than as a force acting across it. He imagined space as a 3D representation of a thin rubber sheet, and objects placed upon it as creating indentations that draw other objects into them. The greater the mass of the object, the larger the dent, and the greater the curvature of space around the object. This is the founding priciple of his General Theory of Relativity.
yes
Yes. Gravity is the main force that affects the motion of objects in space.
Such an object is said to be in free fall.