A wave and a particle.
Or maybe neither.
Einstein first proposed the idea of photons as discrete packets of light energy to explain the photoelectric effect. According to his hypothesis, light is composed of individual particles called photons that transfer their energy to electrons upon striking a material surface. Additionally, Einstein's explanation of the double-slit experiments involved the concept of wave-particle duality, stating that light exhibits both wave-like and particle-like properties.
Light has a dual nature, as outlined by Albert Einstein. That means that light has properties of both transverse waves and particles.
Einstein. He stated that light acts as both a particle and a wave.
because they are nice
No. To explain the photoelectric effect, you have to think of light as a particle, not a wave. The fact that light can be both a wave and a particle is part of quantum mechanics, not classical physics.
Both interested in LIGHT
Einstein first proposed the idea of photons as discrete packets of light energy to explain the photoelectric effect. According to his hypothesis, light is composed of individual particles called photons that transfer their energy to electrons upon striking a material surface. Additionally, Einstein's explanation of the double-slit experiments involved the concept of wave-particle duality, stating that light exhibits both wave-like and particle-like properties.
Albert Einstein.
Light has a dual nature, as outlined by Albert Einstein. That means that light has properties of both transverse waves and particles.
Einstein. He stated that light acts as both a particle and a wave.
because they are nice
light has properties of both a wave and a particle whereas sound travels exclusively as a waves. i think Einstein did some work with light waves
No. To explain the photoelectric effect, you have to think of light as a particle, not a wave. The fact that light can be both a wave and a particle is part of quantum mechanics, not classical physics.
Both. E = mc2(squared) wave is an energy formwhile m is mass (particle)einstein proved that light acts as wave and particle at the same time.
Both. E = mc2(squared) wave is an energy form while m is mass (particle) einstein proved that light acts as wave and particle at the same time.
Planck figured out that light was made of particles, and said energy of a quantum = planck's constant*frequency of emitted radiation. Einstein said: 'okay, neither model explains everything-maybe light can be treated as both a wave and a particle (he also came up with the term photon to describe light's particles). He then used Planck's idea to figure out that the energy of a photon depended on its frequency. The logical conclusion was that a given photon must have enough energy to free an electron from the atom-hence, the wave form must have a certain frequency.
Both developed scientific theories that changed the way people understood the natural world.