Yes. With his prism demonstration, Newton showed that white light is made up of all the colours of light. And he showed, again with the use of prisms, that the rainbow of colours from the first experiment could be combined to form white light again.
Gravity of Light was created in 2010.
I don't think there is a scientific concept called "gravity light". There is gravity, and there is light. The two are not directly related.
Yes as explained in the theory of relativity Yes. Light is affected by gravity, but because light travels so fast, the effect is not noticeable under most conditions. As light passes by something with mass its path bends toward the object in what is called gravitational lensing. We have observed this effect around massive galaxies as the light from galaxies behind them is distorted.
Newton's laws are good at describing motion in a zero gravitiy invironment where as Einstien's theories would be more useful if you were travelling near the speed of light.
There are actually two theories of relativity, the special theory and the general theory. In the special theory (1905) Einstein showed the relationship between energy, motion and mass. In the General theory (1912) he showed the relationship between acceleration, Time and gravity.
Gravity affects the fabric of space-time. So both space and time will be distorted.
they don't give of light but can be spotted by observing its gravity's affects.
Gravity is believed to travel at the speed of light. This follows from theory, especially the Special and the General Theory of Relativity; I believe there is not yet enough experimental evidence to confirm this speed.
explain planks quantum theory? Planck did not make the whole Quantom thoery. He only made up Quanta. Other scientists helped inprove it over time.
The force of gravity affects nearby light, causing a change in temperature.
Yes. With his prism demonstration, Newton showed that white light is made up of all the colours of light. And he showed, again with the use of prisms, that the rainbow of colours from the first experiment could be combined to form white light again.
If light passes by a large mass gravity will pull it down a little, bending its trajectory. If light leaves a large mass gravity will "stretch" its wavelength (decrease its frequency)and if it falls into a large mass gravity will scruntch up its wavelength (increase its frequency).
They maintain gravity as light waves maintain light. They travel at the same speed (300,000,000 meters per second) as light. The difference is that the quantum of gravity, called the graviton, while it exists in theory, has never yet been detected.
Wrong, Light has mass and does travel at the speed of light and is affected by gravity! Light mass: hf=mc^2 means m=h/cw. Optical mass is m-red=2.96e-36 kg (w=.75um). Violet would be double 5.92e-36 kg. The math for the infinite mass theory at light-speed is also wrong.- -------- Light has no resting mass, just energy. Gravity is a bend in space, therfore Gravity does not pull at light but the light 'bends' with space
Newton's significant contributions are many; Gravity Theory, Laws of Motion,Theory of Light, Reflection Telescope, Principia and Calculus.
Although light has no mass in the usual sense, it does feel the effects of gravity because of the curvature of spacetime. In his general theory, Einstein called it 'gravitation' and showed that light would travel only in straight lines (geodesics) through curved space. Near an intense gravity source like a black hole this might appear to a distant observer as if the light path curves inwards to the black hole. The general theory was later verified through astronomical observations and other experiments. Einstein liked curved space. In (non-curved) Euclidean space, however, the photon is energy and is attracted by other masses gravitationally. Choose your explanation. After all, what is curvature but a model for gravity.