Photon In Sentences - Examples Of Photon In Sentences
visibility
9 views
calendar_month
Mar 25, 2024
Search your words in sentences https://englishteststore.net/index.php?option=com_content&view=article&id=20211&Itemid=1131
- This process can generate 10 electrons for each individual photon.
- But on the atomic scale, we can show instances when we have to count a single photon as having been produced at two times.
- When the electron decays back again, it emits one photon of light.
- Each photon in the ultraviolet range has a lot of energy, enough to hurt skin cells and cause a sunburn.
- Electrons release this energy as photons, and at higher intensities, this photon can be seen as visible light.
- We can know for sure that it is most likely that a photon will hit the center bright band, and that it gets less and less likely that a photon will show up at bands farther and farther from the center.
- Another property of a photon is its wavelength.
- A photon is an example of a boson as it has a spin spin of 1 and carries electromagnetism.
- Electrons can only jump between certain orbits, and the energy gained or lost in changing between orbits is produced when a photon of the right energy is absorbed or a new photon of the right energy is produced.
- It could carry 250 photon torpedoes.
- There was a photon with a certain frequency and now it has been taken away.
- If an electron gets hit by a photon, then it will jump back down to a lower energy level, releasing its contained energy.
- The Enterprise had 12 Type X phasers and three Photon Torpedo launchers.
- Electromagnetic radiation includes everything from cosmic rays on the high energy photon end, to the visual light spectrum, and on down below the infrared to the extremely low frequency radio waves.
- In a neutral atom, the system will emit a photon of the difference in energy.
- Unlike normal matter, however, they do not create any energy when they annihilate each other, but instead create an imaginary photon.
- Other gauge bosons include the photon, the gluon, and the W and Z particles.
- Chloroplasts also contain various yellow and orange pigments to assist in photon capture for photosynthesis.
- If you saw a giant photon coming straight at you, it could appear as a swath whipping vertically, horizontally, or somewhere in between.
- Planck suggested that the energy of each photon was related to the photon frequency by the Planck constant.
- The theory that most accurately explains how the electron, photon, electromagnetism, and electromagnetic radiation all work together is called quantum electrodynamics.
- For example, an ultraviolet photon has more energy than an infrared photon.
- The electrons will then drop back to a lower state and will lose their extra energy by giving off a photon.
- Other known bosons are the photon, the W and Z bosons, and the gluon.
- When this phosphor releases energy, it lets out a photon that we can see, and light is made.
- That dim spot of light represents the photon or other atomic particle which tunnels through the wall.
- In that case, the probability that the photon will appear at a certain point is extremely high, but the momentum it delivers can turn out to be related to the wavelength of any one of the component waves.
- If the mathematical model is an accurate representation of the real world, then no photon or other subatomic particle has either an exact position or a definite momentum.
- The wavelength of any reflected or emitted photon or other particle is shortened in the direction of travel.
- Since the amplitudes of the sine waves are everywhere the same, the probability for finding the photon at each of them would be the same.
- Each photon has a certain amount of energy related to its wavelength.
- We can aim the light source at a piece of photographic film, let the light source make one photon, and then develop the photographic film.
- We either measure the momentum of a photon or electron at one time and then without any more delay than necessary measure its position, or we switch things around and measure position first and momentum second.
- And, very surprisingly, a single photon could interfere with itself as though it were a single wave that fit the old wave description.
- If the color of the light is infrared, each photon can heat up what it hits.
- That is because when a photon goes through a hole like that it experiences diffraction.
- A photon is an elementary particle, meaning that it cannot be broken down into smaller particles.
- The wave that applies to a photon might be a pure sine wave.
- For example, the photon carries the electromagnetic force.
- We may construct a light source that only makes one photon at a time.
- The shorter the wavelength of a photon, the greater its energy.
Show More keyboard_arrow_down
Show Lesskeyboard_arrow_upsell
#Jobs & Education