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Is there a phenomenon that does not support the wave nature of light?
Yes, the photoelectric effect is a phenomenon that does not support the wave nature of light. It demonstrates particle-like behavior of light as photons transfer their energy to electrons in a material, causing them to be emitted. This phenomenon cannot be explained using a wave model of light.
Why a light is sometimes described as a wave and sometimes as a particle. Give evidence to support the wave nature of light.?
Light is described as both a wave and a particle due to its dual nature under quantum theory. Evidence for the wave nature of light includes phenomena such as interference and diffraction, where light waves exhibit behaviors like interference patterns and bending around obstacles. The wave-particle duality of light is a fundamental aspect of quantum mechanics.
How can you prove that light in the form of wave?
The wave nature of light can be demonstrated through phenomena such as interference and diffraction, where light waves exhibit patterns that can only be explained by wave behavior. Additionally, experiments like the double-slit experiment further support the wave nature of light by showing interference patterns characteristic of wave propagation. These observations indicate that light behaves as a wave rather than a particle in certain situations.
Which phenomena does not support quantum nature of light?
One phenomenon that does not support the quantum nature of light is the photoelectric effect. In this effect, light behaves as a stream of particles (photons) rather than a classical wave, showing that light can only be explained fully by quantum mechanics.
What describes light travelling as wave?
a wave model of light.
Is there a phenomenon that does not support the wave nature of light?
Yes, the photoelectric effect is a phenomenon that does not support the wave nature of light. It demonstrates particle-like behavior of light as photons transfer their energy to electrons in a material, causing them to be emitted. This phenomenon cannot be explained using a wave model of light.
Why a light is sometimes described as a wave and sometimes as a particle. Give evidence to support the wave nature of light.?
Light is described as both a wave and a particle due to its dual nature under quantum theory. Evidence for the wave nature of light includes phenomena such as interference and diffraction, where light waves exhibit behaviors like interference patterns and bending around obstacles. The wave-particle duality of light is a fundamental aspect of quantum mechanics.
Which phenomena does not support quantum nature of light?
One phenomenon that does not support the quantum nature of light is the photoelectric effect. In this effect, light behaves as a stream of particles (photons) rather than a classical wave, showing that light can only be explained fully by quantum mechanics.
How can you prove that light in the form of wave?
The wave nature of light can be demonstrated through phenomena such as interference and diffraction, where light waves exhibit patterns that can only be explained by wave behavior. Additionally, experiments like the double-slit experiment further support the wave nature of light by showing interference patterns characteristic of wave propagation. These observations indicate that light behaves as a wave rather than a particle in certain situations.
Is light a transverse or longitudinal wave?
Light is transverse in nature.
What describes light travelling as wave?
a wave model of light.
What is the nature of lightwave?
Light being electromanetic wave is TRANSVERSE in nature.
What property is attributed to the particle nature of light rather than its wave nature?
The property of localized energy packets called photons is attributed to the particle nature of light rather than its wave nature.
What are the nature of light?
Light acts like both a particle and a wave.
Transverse wave nature of light is proven by?
polarization
Does speed of light depend on wave or particle nature?
No.
What is the best characterization of nature of light?
Light exhibits wave and particle properties.
