It can. See link for de Broglie wavelength.
Type your answer here... the wave function associated with the particle , and it is must be single valued of position and time , when two values are found that means the particle exists in two different places , which is impossible yet
wave
Lasers don't really "make use" of either the wave or particle nature of light. Or they make use of both. But because a laser emits what is called coherent light, it could be argued that the wave nature of light is best at describing the light the laser emits.Lasers make use of Boltzmann energy distribution statistics, which doesn't have anything to do with the particle or wave description of light. Lasers work by creating a population inversion in a chemical compound which creates stimulated emission when excited.Light has both wave-like and particle-like properties at the same time. It is said to exhibit particle-wave duality. Light is what it is -- the fact that we describe it using both a particle and a wave description is only a reflection of our inability to fully describe light in using one single intuitive model (because we have no intuitive experience with things that have both wave and particle properties simultaneously).
Light doesn't really feature in chemistry but on the rare occasions it does it is as a wave and a form of energy, not a particle.
energy
Lambda is the eleventh letter of the Greek alphabet. It is a particle in subatomic particle physics. It can also indicate the wavelength of a wave.
Type your answer here... the wave function associated with the particle , and it is must be single valued of position and time , when two values are found that means the particle exists in two different places , which is impossible yet
The sine wave, with its repeating pattern, can represent a single frequency with no harmonics.
Light is both a wave and a particle depending on circumstances; this is referred to as the wave-particle duality of light.
wave
Light is theorized as both a particle and a wave. Since it is similar to the electron in this way, the Double-Slit Experiment showed that there is a concentration of charge in many areas, but when closely examined, the electron only passes through one of the two slits. Light travels in both a wave and a particle in this sense. Things such as interference, diffraction and polarization cannot be explained by light being a particle as the photoelectric effect cannot be explained by light being a wave, in addition to reflection and refraction both able to be explained by either a wave or a particle.
a partical wave is the name of normal wave
a particle traveling in wave form.
wave theory of light
Alpha is a particle not a wave. Alpha particle are positively charged helium nuclei and have a +2 charge and 4u mass.
Einstein. He stated that light acts as both a particle and a wave.
The wave-particle duality applies to any object (or wave); not just to light.This is usually understood in the sense that the wave represents the probability of finding the particle in different places.