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.
Gravity bends space-time by creating a curvature in the fabric of the universe. Objects with mass, like planets and stars, cause this curvature, which affects the path that other objects, like light, travel through space. This bending of space-time is what we experience as the force of gravity.
No. Our best understanding is that gravity is a distortion (curvature) in the fabric of space-time caused by the presence of mass. Mass tells space-time ow to bend and space-time tells mass how to move.
Light can bend when passing through different mediums with varying densities, due to a change in the speed of light. Light can also bend when it travels near massive objects like stars or black holes, due to the distortion of space-time caused by gravity.
Light can bend when it travels from one medium to another medium with a different optical density, a process known as refraction. The change in speed of light as it enters a new medium causes it to change direction. Additionally, gravitational fields can also bend light due to the curvature of spacetime, a phenomenon known as gravitational lensing.
Mass bends space-time due to the gravitational force it exerts. According to Einstein's theory of general relativity, mass warps the fabric of space-time, causing objects to move along curved paths. This bending of space-time is what we perceive as gravity.
albert enstein
Gravity is a force, not a bend in spacetime.
Gravity bends space-time by creating a curvature in the fabric of the universe. Objects with mass, like planets and stars, cause this curvature, which affects the path that other objects, like light, travel through space. This bending of space-time is what we experience as the force of gravity.
Einstein described gravity as a bend in space-time. Today, some physicists describe the fourth dimension as any space that's perpendicular to a cube.
If the light from a distance galaxy passes near a massive cosmic object, then the gravity of that object will distort space-time. That will cause the light to bend.
Yes, Einstein's theory of gravity, known as general relativity, predicts that massive objects cause a curvature in spacetime. This curvature can cause objects to follow curved paths, which we perceive as bending in space.
As we understand it, photons have no mass, so the force cannot be due to any mass interactions. Space is bent or warped, and the light follows the space.
With a large gravity well.
No. Our best understanding is that gravity is a distortion (curvature) in the fabric of space-time caused by the presence of mass. Mass tells space-time ow to bend and space-time tells mass how to move.
In a sense, light does not bend. Light sometimes passes through space (or space-time) that is warped or bent because of a nearby object having very strong gravity. The light passes through this space in what (from the light's point of view) is a straight line. To other observers the light may appear to have followed a bent path. So gravity warps space-time, and light appears to bend as it travels through this warped space-time. The light isn't doing anything except following what is a completely natural path through space.
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.
Light can bend when passing through different mediums with varying densities, due to a change in the speed of light. Light can also bend when it travels near massive objects like stars or black holes, due to the distortion of space-time caused by gravity.