How to use in-sentence of “neutron”:
+ PWRs use ordinary water as both coolant and neutron moderator.
+ Dissolved in water, it acts as a neutron absorber in nuclear power plants.
+ It uses graphite as a neutron moderator and carbon dioxide gas as a heat exchange coolant.
+ The mass of the neutron is also about one atomic mass unit.
+ Very large red giants become neutron stars or black holes.
+ These two examples are the only known exceptions to the rule that all other atoms have at least one proton, one neutron and one electron each.
Example sentences of “neutron”:
+ The same cannot be applied to when another neutron or another electron is added.
+ Those LMXBs that were not neutron stars turned out to be black holes.
+ The same cannot be applied to when another neutron or another electron is added.
+ Those LMXBs that were not neutron stars turned out to be black holes.
+ The stages in a star’s life are: nebula, main-sequence star, red giant and either white dwarf followed by black dwarf, neutron star or black hole.
+ Since the creation of heavier nuclei by fusion costs energy, nature resorts to the process of neutron capture.
+ He also came up with idea that parts of an atom, the proton ad the neutron were made up of even smaller particles.
+ They use graphite as the neutron moderator and carbon dioxide as the coolant.
+ The two in the nucleus of the atom make a positive charge, since the neutron has no charge at all.
+ Pulsars coined word from pulsating star are neutron stars which spin rapidly and produce huge electromagnetic radiation along a narrow beam.
+ He was specially known for his experiments on neutron interference.
+ The series is about a young genius named Jimmy Neutron who experiments with laboratory equipment which causes trouble to Retroville.
+ Einstein’s theory of general relativity predicts that two neutron stars would emit gravitational waves as they orbit a common center of mass, which would carry away orbital energy, and cause the two stars to draw closer together.
+ So a helium atom with two protons and one neutron is called helium-3, and a carbon atom with six protons and six neutrons is called carbon-12.
+ There’s a list of Jimmy Neutron filled 80 episodes and four seasons on Nickelodeon from July 20, 2002 to November 28, 2008.
+ Although all three kinds of objects are neutron stars, the things that they can be seen to do and the physics that causes this are very different.
+ A proton has a positive electric charge, and a neutron has a neutral electric charge.
+ For example, when it changes a down quark in a neutron into an up quark, the charge of the neutron becomes +1, since it would have the same arrangement of quarks as a proton.
+ Two deuterium atoms combined with an oxygen atom is sometimes called “heavy water.” This is because it is like water, but heavier because deuterium has one more neutron in its nucleus.
+ A neutron is made of one up quark and two down quarks.
+ The complex atom is made up of three main particles; the proton, the neutron and the electron.
More in-sentence examples of “neutron”:
+ The central body is typically either a young star, a protostar, a white dwarf, a neutron star, or a black hole.
+ Sources of detectable gravitational waves include binary star systems composed of white dwarfs, neutron stars, or black holes.
+ The central body is typically either a young star, a protostar, a white dwarf, a neutron star, or a black hole.
+ Sources of detectable gravitational waves include binary star systems composed of white dwarfs, neutron stars, or black holes.
+ In this case, the companion star is either very small and faint, or it is a neutron star or a black hole.
+ David Charles Hahn was an American who attempted to build a homemade neutron source at the age of 17.
+ A neutron is made of two down quarks and one up quark.
+ Because of this, the proton has +1 charge and the neutron 0 charge.
+ In the case of magnetic order, neutron diffraction can be used to find the magnetic structure.
+ Beta decay is what scientists call a neutron breaking down, in contrast with alpha decay where an atom breaks down.
+ The process of accretion can in turn give enough angular momentum energy to the neutron star to change it into a rotation-powered :millisecond pulsar.
+ It is a more efficient neutron moderator than regular water, allowing the use of unenriched uranium as fuel.
+ First, iron stars of sufficient mass will collapse into neutron stars.
+ This is the lightest stable or almost stable nucleus with much more neutron than proton.
+ This would change the charge of the neutron from 0 to = 1.
+ The experiments usually measure neutron scattering from the sample under study.
+ Another way to understand the density is this: one teaspoon of matter from the neutron star would weigh 6 billion tons.
+ The compact object that was created after the explosion lies in the center of the Crab Nebula and is a neutron star.
+ A neutron star has a large amount of mass in a very small space.
+ The Sun rotates at 2 km per second, neutron stars have speeds of thousands of km/sec.
+ Millisecond pulsars create a sort of “wind”, which in the case of binary pulsars can blow away the magnetosphere of the neutron stars and have a dramatic effect on the pulse emission.
+ An easy way to think of a neutron is that it is made of one proton and one electron.
+ Looking for the origin of a supernova, they suggested that in supernova explosions ordinary stars are turned into stars that consist of extremely closely packed neutrons, which they called neutron stars.
+ This caused the neutron moderator, made of graphite, to start to burn.
+ It is also used as a neutron absorber in control rods in nuclear power plants.
+ Heavy water is used as a neutron moderator in some nuclear reactors, such as CANDU reactors.
+ This pulsar orbits another neutron star with an orbital period of just eight hours.
+ When there are too many neutrons in one atom nucleus, one neutron will split and form a proton and an electron.
+ The theory applies to solids, liquids and gases, but it does not apply in way analogous to Plasma plasmas or neutron stars.
+ Gravitational waves are ripples in spacetime emitted by very dense objects changing shape, which include White dwarfwhite dwarves, neutron stars and black holes.
+ Superficially, neutron beamlines differ from synchrotron radiation beamlines mostly by the fact that they use neutrons from a research reactor or a spallation source instead of photons.
+ After exploding, what is left becomes a black hole or a neutron star.
+ Neutronium sometimes shortened to neutrium, However, the meaning of the term has changed over time, and since the last half of the 20th century it has been also used to refer to extremely dense substances resembling the neutron-degenerate matter speculated to exist in the cores of neutron stars.
+ Common neutron moderators are ordinary water, heavy water, and graphite.
+ The report said that China had “stolen classified information on all of the United States’ most advanced thermonuclear warheads” since the 1970s, including the design of advanced warheads, the neutron bomb, and “weapons codes” which allow for computer simulations of nuclear testing.
+ In writing the Neutron Star article, I started on a section about their rotation.
+ Water is used as both the coolant and the neutron moderator in most nuclear reactors.
+ It turned out that all pulsars and some LMXBs are neutron stars and that the differences were due to the environment in which the neutron star was found.
+ The “r” process is thought to occur in supernova explosions because the conditions of high temperature, high neutron flux and ejected matter are present.
+ Instead of a white dwarf, it leaves behind a much smaller, much denser ball called a neutron star.
+ White dwarfs are the final stellar evolutionevolutionary state of all stars whose mass is not high enough to become a neutron star.
+ A Λ also has a significantly lower, but still possible, chance to decay into a neutron and an uncharged pion.
+ In this decay a neutron in the nitrogen nucleus is turned into a proton and an electron by the weak nuclear force.
+ The discovery of pulsars in 1967 first suggested that neutron stars exist Other types are magnetars and binary pulsars.
+ These are the fundamental particles that make up hadrons such as the proton, neutron and pion.
+ In a beta decay a neutron breaks into a proton, an electron and a neutrino.
+ The three-quark neutron with a charge of +1 is no longer a neutron after this, as it fulfills all of the requirements to be a proton.
+ Van den Heuvel is well known for his work on the formation and evolution of compact astrophysical objects such as neutron stars, black holes, and white dwarfs in binary starbinary systems, and for his investigation of gamma ray bursts.
+ Accretion discs of young stars and protostars radiate in the infrared, those around neutron stars and black holes in the X-ray part of the spectrum.