Google it lazy bum.
No, light waves are just that-- waves. The color of the wave is determined by it's frequency- normal light is white because it is low frequency. The frequency is how fast the light "waves". But a laser pointer has red light, which has a higher frequency, and therefore is only one color. Hope this helps!
Light rays travel in straight lines called rays or beams. They propagate by transferring energy and momentum through particles or fields, such as photons in a vacuum or electromagnetic waves in a medium. Light rays can be reflected, refracted, or absorbed when interacting with different materials.
light travels in straight paths called rays
Light rays travel in a straight line unless they are refracted or reflected by a medium. This straight path is known as rectilinear propagation. Light rays can also be bent when passing through different mediums with varying optical densities.
Light exhibits both wave-like and particle-like properties. It travels in a straight path called a ray but also behaves like a wave, with properties such as diffraction and interference. This dual nature of light is described by the wave-particle duality principle in quantum mechanics.
Light waves travel in Straight Lines, but when a light beam passes close to a massive object, then the light beam will be deflected by the Gravity Well of that body. Otherwise known as the Curvature of Space-Time.
Light rays travel in straight lines called rays or beams. They propagate by transferring energy and momentum through particles or fields, such as photons in a vacuum or electromagnetic waves in a medium. Light rays can be reflected, refracted, or absorbed when interacting with different materials.
light travels in straight paths called rays
Light rays travel in a straight line unless they are refracted or reflected by a medium. This straight path is known as rectilinear propagation. Light rays can also be bent when passing through different mediums with varying optical densities.
Light exhibits both wave-like and particle-like properties. It travels in a straight path called a ray but also behaves like a wave, with properties such as diffraction and interference. This dual nature of light is described by the wave-particle duality principle in quantum mechanics.
Light waves travel in Straight Lines, but when a light beam passes close to a massive object, then the light beam will be deflected by the Gravity Well of that body. Otherwise known as the Curvature of Space-Time.
Gas particles move randomly in all possible directions and travel in a straight path.
Tornadoes do not usually travel in a straight line. They can change direction and speed rapidly, making them unpredictable and dangerous. Tornado paths are often characterized by erratic and twisting movements as they move across the landscape.
If light did not travel in a straight line, optical devices like cameras and telescopes would not work as effectively, as they rely on light rays traveling in straight paths. Communication through fiber optics would also be affected, as the signals wouldn't reach their intended destinations accurately. Understanding and predicting the behavior of light would become more challenging in fields such as physics and engineering.
As particles photons travel in a straight line unless they are diverted by reflection, refraction, or a magnetic or gravitational field. Note that when it comes to gravity it can also be represented that the light continues in a straight line - but the space it travels through is curved so its path appears curved to the outside observer.
geometrical optics
Michelson's experiment is called a null method because it is based on comparing the time it takes for light to travel two different paths that are equal in length. By adjusting one of the paths until no interference pattern is visible, he could determine when the two paths were precisely equal, thereby finding the speed of light indirectly without directly measuring it.
Light is an electromagnetic wave that consists of tiny particles called photons this wave electrical origin and have the ability to travel through a vacuum as they do not require a material medium for propagation.So heat and light from the sun reach through a vacuum.If they required a medium they would never reach us across the empty space!!