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The electron configuration of an atom determines how it behaves when it comes into contact with another atom.
An atom behaves on how many penises it has
It's typically called the "Wave-particle duality". And it's easily demonstrated, so it's not "just a theory". If you set up an experiment that will produce results from a wave but not from a stream of particles, a beam of light produces results. So light behaves like a wave. If you set up an experiment that will produce results from a stream of particles but not from a wave, a beam of light produces results. So light behaves like a stream of particles. Whichever one you look for ... waves or particles ... light behaves that way. So, next time someone asks you "Is light a wave or a stream of particles ?", you can answer him confidently, knowing that your answer is the correct one. The correct answer is "Yes ".
sound behaves as a compressional wave, look at a photo of it. I'll try to draw it, but it 's gonna suck direction of propagation -----> * * * * * * * ** * * * * * * * ** **** * * * * * * * * *** * *
It means that if you design an experiment to detect the behavior of particles, andrun light through it, light behaves as if it's made of particles. And if you design anexperiment to detect the behavior of waves, and run light through it, light behavesas if it's made of waves. Light has a "dual nature". That means it acts like two thingsthat we always thought were separate ... waves andparticles.
The electron configuration of an atom determines how it behaves when it comes into contact with another atom.
An atom behaves on how many penises it has
That means that light - as well as subatomic particles, among other things - behaves both as a wave, and as a particle. For more information, check the Wikipedia article on "Wave-particle duality".
The atomic number is the number of protons in the nucleus. The protons are positive particles, and so the number of them is matched by the number of electrons orbiting the nucleus. The organisation of the electrons determines how an element behaves when it reacts.
Particles
Wave or a Stream of Particles
That theory states that light behaves as group of particles.
They can be classified by 3 types. Reflection, refraction, and i forgot the last
A nanoparticle is a small object which behaves as a unit in terms of its transport and properties.
Light behaves in TWO ways. It has the properties of BOTH Waves and Particles in its motion and transmission.
It's typically called the "Wave-particle duality". And it's easily demonstrated, so it's not "just a theory". If you set up an experiment that will produce results from a wave but not from a stream of particles, a beam of light produces results. So light behaves like a wave. If you set up an experiment that will produce results from a stream of particles but not from a wave, a beam of light produces results. So light behaves like a stream of particles. Whichever one you look for ... waves or particles ... light behaves that way. So, next time someone asks you "Is light a wave or a stream of particles ?", you can answer him confidently, knowing that your answer is the correct one. The correct answer is "Yes ".
If you set up an experiment with equipment that detects and measures wave properties and then run light through it, light behaves like waves. If you set up an experiment with equipment that detects and measures particle properties and then run light through it, light behaves like particles. Light exhibits the propertiers of both waves and particles.