in light photons are there they have energy and energy can be transfered in form of a wave so, it can be a wave
Light travels in the form of electromagnetic waves.
Thomas Young was the first person to offer evidence that light was a wave through his famous double-slit experiment in 1801. This experiment demonstrated light's wave-like behavior through interference patterns.
Light wave energy refers to the form of energy carried by electromagnetic waves in the visible light spectrum. These waves travel through space in the form of particles called photons and are responsible for providing illumination and enabling sight. Light wave energy is used in various applications including lighting, communication, and solar power generation.
A light wave measures the oscillation or vibration of electric and magnetic fields as it travels through space. It carries energy and information in the form of electromagnetic radiation.
Light travels as light energy. Light is a type of electromagnetic wave.
Light travels in the form of electromagnetic waves.
Light is not carried by waves, it IS as wave an "electromagnetic" wave. Interestingly, it is also a particle, a "photon".
Thomas Young was the first person to offer evidence that light was a wave through his famous double-slit experiment in 1801. This experiment demonstrated light's wave-like behavior through interference patterns.
light is a electromagnetic wave how to prove it ? simple, take diffractionlight bends around the corner of very small opaque objects this is not possible if light was to travel in same line .here ray optics of the light fail. hence light is not a ray so it must be a wave
em wave is generated by photons which emitter the energy in the form of light
light is neither a wave or a particle. Light exists as tiny packets of photons which are emitted at random. That is light in its simplest form.Visible light is part of the electromagnetic spectrum and as such is a form of energy.
Light travels as light energy. Light is a type of electromagnetic wave.
A polarization experiment demonstrates that light is a transverse wave composed of oscillating electric and magnetic fields perpendicular to the direction of propagation. It also shows that light waves are polarized, meaning the electric field oscillates in a specific orientation. This experiment helps to study the wave nature of light and confirm the wave theory of light propagation.
Light behaves as both a wave and a particle in chemistry. As a wave, light exhibits properties such as interference and diffraction, while as a particle, light consists of discrete packets of energy called photons. This dual nature of light is described by the wave-particle duality principle.
Newton says "yes"
Ultraviolet.
Light wave energy refers to the form of energy carried by electromagnetic waves in the visible light spectrum. These waves travel through space in the form of particles called photons and are responsible for providing illumination and enabling sight. Light wave energy is used in various applications including lighting, communication, and solar power generation.