How to use in-sentence of “particle”:
+ Wu started working on nuclear physics with a particle physicist named Ernest Livermore.
+ Particle detectors are used in particle physics, nuclear physics, and nuclear engineering.
+ In an electric wire the charge that moves is in a particle called the electron.
+ They may also use chemical tests to find out what a particle is made of.
+ He won the Nobel Prize in 1975 for his works in physics: he discovered the connection of the collective motion and the single-motion particle in the atomic nucleus, and also for the development of the nuclear structure.
+ He was known for his study of particle physics, the smallest parts that make up the universe.
+ When the Standard Model is operated, it is often made a version with supersymmetry, doubling the number of particle species so far identified by particle physicists.
+ The particle can vary so that it adds more grammatical change into the word connecting it to the whole sentence.
Example sentences of “particle”:
+ It was first defined and used in physics for describing particle speeds in idealized gases.
+ Pellet is a term used for a small particle or grain, typically one created by compressing an original material.
+ This means a clay particle will travel 1000 times further at constant water velocity, thus requiring quieter conditions for settlement.Stow D.A.V.
+ It was first defined and used in physics for describing particle speeds in idealized gases.
+ Pellet is a term used for a small particle or grain, typically one created by compressing an original material.
+ This means a clay particle will travel 1000 times further at constant water velocity, thus requiring quieter conditions for settlement.Stow D.A.V.
+ A particle of spin two needs to be turned around halfway to look the same.
+ The longer wavelength means the particle could be anywhere along the stretch of the wave.
+ The Large Hadron Collider, the largest particle accelerator in the world, is at CERN.
+ The speed of the particle was almost the speed of light.
+ Theoretical particle physicists make theories to try to improve the Standard Model.
+ A magnetic monopole is a hypothetical particle in particle physics that is a magnet with only one magnetic pole.
+ They solved this by finding a particle called a “gluon”.
+ To find the chance that a particle will pass through a point, the waves of each particle needs to be added up.
+ With no outside information, a single particle is completely like any other.
+ Annihilation is the name given to the process that occurs when a particle and its antiparticle equivalent collide.
+ When a particle is going backward in time, it is called an antiparticle.
+ Then he began his work on particle physics at Princeton.
+ The biggest particle accelerator in the world is the Large Hadron Collider at CERN in Europe.
+ Fermilab’s Tevatron was a landmark particle accelerator; at in circumference, it was the world’s second largest energy particle accelerator, until being shut down on September 30, 2011.
More in-sentence examples of “particle”:
+ If the particle moves faster than the speed of light in that medium, the emitted waves add up and at an angle with respect to the particle direction a radiation is emitted which is known as Cherenkov radiation.
+ For example, a radioactive carbon-14 atom releases a beta particle to become nitrogen-14.
+ The meeting points for the lines can also be interpreted forward or backwards in time, so that if a particle disappears into a meeting point, that means that the particle was either created or destroyed, depending on the direction in time that the particle came in from.
+ He was well known for his many publications and summer-school lectures in nuclear and particle physics, as well as his widely used graduate text on classical electromagnetism.
+ A chemical element is a substance that contains only one Chemical speciestype of atom, which is the smallest particle of an element.
+ The uncertainty principle says that the speed and the position of a particle cannot be found at the same time.
+ This means that the particle can only have special energy values and cannot have the energy values in between.
+ Instead of keeping track of temperature or wind speed, they tell us how much push or pull a charged particle will feel at that point in space, and which direction it will be pushed.
+ The particle accelerator at CERN was set up to search for the Higgs Boson particle, which would complete the Standard Model of Particle Physics.
+ Electromagnetic radiation is thought to be both a particle and a wave.
+ Studying velocity instead of position makes more sense for a fluid, but for visualization purposes one also can compute various paths that a particle could flow along.
+ A particle could be described as being 50% likely to be in one place at one time, or 50% likely to be in one place at another time.
+ This shows us that the location of a particle is probabilistic; one can never say that the particle will “definitely” be found at a certain point in space, but rather, one can only give the probability of finding the particle within that region.
+ The Large Hadron Collider is the world’s biggest and most powerful particle accelerator.
+ Scientists are interested in this, as they are predicted in several particle theories, such as grand unified and superstring.
+ He received the 1992 Nobel Prize in Physics “for his invention and development of particle detectors, in particular the multiwire proportional chamber”.
+ Instead of tuning the machine to make particles travel faster, they learned how to wiggle the particle beam to give off particular frequencies of light.
+ Some of the most interesting properties when particle gets converted to nano scale are substances which usually stop light become transparent.
+ The atoms they are made of tend to fall apart and give off different kinds of radiation, like gamma rays and lots of particle radiation.
+ So, over time, physicist have built accelerators with bigger magnets and larger circles to reach higher particle energy levels.
+ This means that the particle is a hydrogen atom with more protons then electrons, that contains a muon, and that contains extra neutrons which make it heavier.
+ The wave function can be thought of as a picture of how this particle or system acts with time and describes it as fully as possible.
+ The mean particle size could be fixed at 2.017-3.18.
+ In a strange quantum mechanicsquantum effect, this transformation releases a particle called a W boson.
+ If the particle moves faster than the speed of light in that medium, the emitted waves add up and at an angle with respect to the particle direction a radiation is emitted which is known as Cherenkov radiation.
+ For example, a radioactive carbon-14 atom releases a beta particle to become nitrogen-14.
+ Scientists once thought that this was caused by the particle spinning on its axis like a planet.
+ When two or more quarks are held together by the Strong_interactionstrong nuclear force, the particle formed is called a hadron.
+ The theory conventionally receives the Copenhagen interpretation, whereby the field is only “possibilities”, none real until an observer or instrument interacts with the field, whose wavefunction then collapses and leaves only its particle function, only the particles being real.
+ There are no messages between the particles saying, “I’m going down, therefore, you must go up” and waiting for the particle to receive the message.
+ The particle usually a Subatomic particlesubatomic or quark particle such as an electron or photon can become a wave to focus a great deal of energy on the barrier, ultimately negating it.
+ An onium is an exotic atom that has a particle bound to its antiparticle.
+ Others are used to study nuclear and particle physics.
+ In string theory, each quantum particle is replaced by a 1D string of vibrating energy whose length is the Planck length.
+ It is the particle that gives mass to other particles.
+ Photon is an elementary particle that is its own antiparticle.
+ Encounters between a particle and an antiparticle lead to both of them being destroyed.
+ Born hypothesized that the above integral determines that the particle “exists somewhere in space”.
+ His work in theorytheorical particle physics was very important to the development of the standard model in the late 20th century.
+ The Tevatron was a circular particle accelerator at the FermilabFermi National Accelerator Laboratory, just east of Batavia, Illinois.
+ Each basic particle is created by the strings vibrating in different patterns.
+ So, rather than a particle existing as a probability wave, this interpretation says that the particle exists only in one position, but we just perceive it to be a probability.
+ In the thought experiment, a person stands in front of a gun which fires if it detects a subatomic particle as having an upward spin, or does not fire if the gun detects a downward spin.
+ Up until the point that you observe it, the Copenhagen Interpretation says that the particle is there and is not there.
+ Experiments often need specialized tools such as particle accelerators, lasers, and important industrial applications such as transistors and magnetic resonance imaging have come from applied research.
+ If both the position and momentum of a particle is being measured, the uncertainty principle states that there is a trade-off between the accuracy with which the momentum is measured and the accuracy with which the position is measured.
+ Also, without sending information about the partner particle, there’s no way to tell if a given particle is single or half of an entangled pair.
+ Actually, antiproton is a subatomic particle of the same mass as a proton but having a negative electric chargeand oppositely directed magnetic moment.