A good experiment with light would be to use different wavelengths and to see which ones the chlorophyll reacts to the most actively.
Newton did experiments using prisms to show that white light contained all colours of light.
Well, i think ehow.com provides complete experiments, and maybe about light. Try to check it out.
Certain experiments such as the photoelectric effect and the Compton effect cannot be explained by classical wave behavior. The quantized nature of light revealed by these experiments led to the development of the quantum theory of light.
You can do many, many experiments with the light. I'll just mention few categories:- Reflection of the light - Refraction of the light - Spectrum related experiments - Experiments that prove the wave nature of the light (interference) - Experiments that prove the particle nature of the light - Experiments that measure the speed of the light in space - if small scale, usually using interference etc... You may search on internet for specific experiments, by using the words of the categories mentioned upper, to narrow your search results.
Streams of light can behave like both particles and waves. In some experiments, light exhibits particle-like behavior known as photons, while in other experiments it shows wave-like behavior such as interference and diffraction. This duality is a fundamental aspect of quantum mechanics.
Some Experiments was created on 2006-03-27.
Light experiments are conducted in dark rooms to minimize external light interference. This helps in keeping the experiment controlled and accurate, as external light sources could affect the measurements or outcomes of the experiment. By conducting experiments in dark rooms, researchers can better study the behavior of light in a controlled environment.
Yes, they are used in experiments in some places :)
He looked at the sun and it damaged his eyes.
Some scientists who have conducted experiments on the nature of light include Thomas Young, who proposed the wave theory of light through his double-slit experiment, and Albert Michelson and Edward Morley, who performed the Michelson-Morley experiment to investigate the presence of the luminiferous aether. Another notable scientist is Max Planck, who developed the quantum theory to explain the behavior of light.
In different experimental conditions, light can behave as both a wave and a particle. This phenomenon is known as wave-particle duality. In some experiments, light behaves more like a wave, exhibiting characteristics such as interference and diffraction. In other experiments, light behaves more like a particle, with properties such as momentum and energy quantization. The behavior of light depends on the specific experimental setup and the interactions it undergoes.
W. Happer has written: 'Light propagation and light shifts in optical pumping experiments'