With the electric and magnetic properties of empty space, Maxwell's Equations predicted the speed of light on purely theoretical grounds, in the 1870s.
The predicted value was confirmed later, when measurement became possible.
Albert Einstein proposed that light is made up of discrete packets of energy, which he called "quanta." This theory helped to lay the foundation for the development of quantum mechanics.
There is unlikely to be a successor to a quantum theory of light, by the definition that the quantum theory of light is that "Light is made up of discernible particles", has very strong evidence to support it, and no alternative explanation has yet been found to explain such effects as the photoelectric effect.If you mean quantum electrodynamics, the section of the standard model of particle physics that explains light, electricity and magnetism, and therefore the standard model of particle interaction, then the only answer is that absolutely nobody knows. In fact, finding a successor to the standard model, which despite being one of the best theories ever developed is full of more holes than the titanic if taken as a theory of everything, is one of the biggest deals in all of science.One possible successor to the theory of quantum electrodynamics is the section of superstring theory that explains electromagnetism, but there are many who don't think string theory will be the answer to physics' problems, and certainly string theorists have yet to find any strong evidence supporting their theories.
The particle theory of light, which suggests that light is made up of small particles called photons, was first proposed by Albert Einstein in 1905 to explain the photoelectric effect. This theory revolutionized our understanding of light and helped to explain phenomena that the wave theory of light could not account for. Today, the particle-wave duality of light is a fundamental concept in quantum mechanics.
Max Planck did not invent quantum theory, but he is considered the founder of the quantum theory of physics. Planck's research on blackbody radiation led him to propose that energy is quantized, which was a key concept in the development of quantum theory by later physicists like Albert Einstein and Niels Bohr.
The light quantum hypothesis, proposed by Albert Einstein in 1905, suggests that light is made up of discrete packets of energy called photons. This hypothesis helped to explain the photoelectric effect and laid the foundation for the development of quantum mechanics.
Came up with the quantum theory, a physical theory that certain properties occur only in discrete amounts (quanta)
explain planks quantum theory? Planck did not make the whole Quantom thoery. He only made up Quanta. Other scientists helped inprove it over time.
I don't know of atomic theory, but he came up with the idea that light energy acted like packetts of energy that he called photons. Thru some theoretical calculations he came up with Plank's constant that deals with the energy of different wavelengths of light.
Albert Einstein proposed the photon theory of light, which suggests that light is made up of individual particles called photons. This theory helped explain the photoelectric effect and laid the foundation for the quantum theory of light. Einstein's work on light theory earned him the Nobel Prize in Physics in 1921.
Albert Einstein proposed that light is made up of discrete packets of energy, which he called "quanta." This theory helped to lay the foundation for the development of quantum mechanics.
The quantum theory of light explains that light is made up of particles called photons. In the photoelectric effect, photons strike a metal surface, transferring their energy to electrons, which can then be emitted from the metal. This process demonstrates the particle-like behavior of light, as individual photons interact with electrons one at a time to cause emission.
There is unlikely to be a successor to a quantum theory of light, by the definition that the quantum theory of light is that "Light is made up of discernible particles", has very strong evidence to support it, and no alternative explanation has yet been found to explain such effects as the photoelectric effect.If you mean quantum electrodynamics, the section of the standard model of particle physics that explains light, electricity and magnetism, and therefore the standard model of particle interaction, then the only answer is that absolutely nobody knows. In fact, finding a successor to the standard model, which despite being one of the best theories ever developed is full of more holes than the titanic if taken as a theory of everything, is one of the biggest deals in all of science.One possible successor to the theory of quantum electrodynamics is the section of superstring theory that explains electromagnetism, but there are many who don't think string theory will be the answer to physics' problems, and certainly string theorists have yet to find any strong evidence supporting their theories.
The particle theory of light, which suggests that light is made up of small particles called photons, was first proposed by Albert Einstein in 1905 to explain the photoelectric effect. This theory revolutionized our understanding of light and helped to explain phenomena that the wave theory of light could not account for. Today, the particle-wave duality of light is a fundamental concept in quantum mechanics.
photon
photon
Photon
Yes Quantum theory of light states that light is made up of photons. Photons are not particles. They are just packets of energy which is given as E = h v h = Planck's constant and v - the frequency of light radiation