The simplest example is a laser pointer.
tape a bunch of flashlights together and rewire them so that you can turn them all on at once.Then get a focal lense that is big enough to fit over all of them. Get a mirror and reflect the light and there you go. Ninjas use Photon Cannons
Well one way to look at it is that a photon IS an electromagnetic field. The photon is the gauge particle for the electromagnetic force. Without photons there would be no electromagnetic interaction force, and therefore no electromagnetic fields.
Well, it's not really a v, it's a Greek lowercase nu, which happens to look a lot like a lowercase Latin v. It means that the energy of a photon is equal to Planck's constant multiplied by the photon's frequency.
A photon.
The energy of a photon is inversely propotional to its wavelength. The wavelength of a blue photon is less than that of a red photon. That makes the blue photon more energetic. Or how about this? The energy of a photon is directly proportional to its frequency. The frequency of a blue photon is greater than that of a red photon. That makes the blue photon more energetic. The wavelength of a photon is inversely proportional to its frequency. The the longer the wavelength, the lower the frequency. The shorter the wavelength, the higher the frequency.
To make a Photon Cannon, one must first understand what a photon is. A photon is a light particle, plain and simple. A Photon cannon would be something that shoots out photons, like a strong flashlight or a laser pointer. By combining two mitheral hammers that cost 1610 gold in the game dota on warcraft 3 plus and extra 1200 gold for the recipie and this creates a stygien desolator which is more commonly known as the photon cannon and normally results in gg(good game).
tape a bunch of flashlights together and rewire them so that you can turn them all on at once.Then get a focal lense that is big enough to fit over all of them. Get a mirror and reflect the light and there you go. Ninjas use Photon Cannons
I have put a few links to pictures of medieval cannon in Wikimedia Commons below:
The photon doesn't have a figure one can relate to. We can't say a photon looks like this -- or like that, because there's nothing in the world we see with our eyes day by day that looks like a photon.
A 'quantum' is a very very very small, but discrete amount of something. For example a quantum of light is called a photon, you cannot get a smaller 'piece' of light than one photon.
A see threw cannon ball(jelly inside) with tentacles
Big, black sphere- shaped cherry bombs
Photon detectors count photons of light. A photon detector has some surface that absorbs photons and produces some effect (current, voltage) proportional to the number of photons absorbed. A photovoltaic cell consists of a layer of semiconductor (like selenium, Hg-Cd-Te, Cu2O, etc.) sandwiched between two metallic electrodes, with the exposed electrode thin enough to be transparent. Photons of light are absorbed by the semiconductor, forming electrons and holes that create a current proportional to the number of photons absorbed. A phototube uses the photoelectric effect to generate a current from absorbed light. Light is absorbed by a metallic surface with a low work function. Electrons are emitted and attracted to a positively biased anode. Electronics measure the current, which is proportional to the number of photons absorbed.
Kettlebells came from Russia and are mad of cast iron. The look kind of like a cannon ball with a handle.
Well one way to look at it is that a photon IS an electromagnetic field. The photon is the gauge particle for the electromagnetic force. Without photons there would be no electromagnetic interaction force, and therefore no electromagnetic fields.
Well, it's not really a v, it's a Greek lowercase nu, which happens to look a lot like a lowercase Latin v. It means that the energy of a photon is equal to Planck's constant multiplied by the photon's frequency.
photon