What is Neutron: Definition and 766 Discussions

The neutron is a subatomic particle, symbol n or n0, which has a neutral (not positive or negative) charge, and a mass slightly greater than that of a proton. Protons and neutrons constitute the nuclei of atoms. Since protons and neutrons behave similarly within the nucleus, and each has a mass of approximately one atomic mass unit, they are both referred to as nucleons. Their properties and interactions are described by nuclear physics.
The chemical properties of an atom are mostly determined by the configuration of electrons that orbit the atom's heavy nucleus. The electron configuration is determined by the charge of the nucleus, which is determined by the number of protons, or atomic number. The number of neutrons is the neutron number. Neutrons do not affect the electron configuration, but the sum of atomic and neutron numbers is the mass of the nucleus.
Atoms of a chemical element that differ only in neutron number are called isotopes. For example, carbon, with atomic number 6, has an abundant isotope carbon-12 with 6 neutrons and a rare isotope carbon-13 with 7 neutrons. Some elements occur in nature with only one stable isotope, such as fluorine. Other elements occur with many stable isotopes, such as tin with ten stable isotopes.
The properties of an atomic nucleus depend on both atomic and neutron numbers. With their positive charge, the protons within the nucleus are repelled by the long-range electromagnetic force, but the much stronger, but short-range, nuclear force binds the nucleons closely together. Neutrons are required for the stability of nuclei, with the exception of the single-proton hydrogen nucleus. Neutrons are produced copiously in nuclear fission and fusion. They are a primary contributor to the nucleosynthesis of chemical elements within stars through fission, fusion, and neutron capture processes.
The neutron is essential to the production of nuclear power. In the decade after the neutron was discovered by James Chadwick in 1932, neutrons were used to induce many different types of nuclear transmutations. With the discovery of nuclear fission in 1938, it was quickly realized that, if a fission event produced neutrons, each of these neutrons might cause further fission events, in a cascade known as a nuclear chain reaction. These events and findings led to the first self-sustaining nuclear reactor (Chicago Pile-1, 1942) and the first nuclear weapon (Trinity, 1945).
Free neutrons, while not directly ionizing atoms, cause ionizing radiation. So they can be a biological hazard, depending on dose. A small natural "neutron background" flux of free neutrons exists on Earth, caused by cosmic ray showers, and by the natural radioactivity of spontaneously fissionable elements in the Earth's crust. Dedicated neutron sources like neutron generators, research reactors and spallation sources produce free neutrons for use in irradiation and in neutron scattering experiments.

View More On Wikipedia.org
Recent contents Top users
  1. J

    How Do You Calculate Vrms for a Neutron in a Reactor Core?

    Homework Statement The equation for the "average" velocity of a gas molecule in a closed container is: Vrms = ( 3 x k x T / m )^ 1/2 where k = 1.38 x 10 ^ 23 Joules/K T is temp in Kelvin m = mass per ion in kg = Atomic Mass M / Avagadro's Number Na so for N2, I...
  2. L

    Neutron bombardment of paraffin

    When paraffin wax (or borated paraffin) is bombarded with neutrons, what does the paraffin emit? (If memory serves me correctly I think it emits protons...?) Also what are typical energies that the emitted particles have?
  3. D

    What is a neutron? (if not an electron inside a proton)

    Simple question, please help. I think it belongs in this forum, though I apologize if there's a nuclear physics forum or somewhere else I should put this. I came across this thread when trying to figure out why electrons don't rest at zero distance away from the nucleus of an atom. So as I...
  4. R

    Neutron Stars: Quantum or Classical Objects?

    Dear all, I'm starting to study neutron star accretion and a lot of physical phoenomena coming from different scales come along and a consistent picture is frankly hard to grasp. But for now, a real mind boggling question can't exit my mind. Are Neutron stars, as a whole Quantum, or...
  5. N

    Magnitude of Fissile Element at the Order of a Neutron.

    Consider a fissile element whose magnitude is at the order of a neutron. In this situation, how can we derive the point kinetic equations? Thanks everyone.
  6. shounakbhatta

    Rotation speed of a neutron star

    Hello, Can somebody please tell me in details about the rotation speed of a neutron star? Does it rotate very fast and then slows down? Thanks.
  7. shounakbhatta

    Supernova remnants & neutron star

    Hello, I want to understand: just as the Crab Nebula is the result of SN 1054 and has a neutron star spinning at the center: (a) Does all supernova produces a nebula? (b) Does all supernova remnant has a neutron star at the center? (c) What is the outcome of Kepler supernova i.e. SN...
  8. shounakbhatta

    Pulsars - Rotating neutron star produces EM radiation?

    Pulsars -- Rotating neutron star produces EM radiation? Hello, If a neutron star is composed of neutrons, which do not carry any electric charge then how it's rotation produces pulsars which are electromagnetic radiation? Thanks.
  9. S

    Computing Neutron Source Strength - Your Advice Welcome

    Greetings to all, I know activity for a Am-Be neutron source. I want to compute strenght source in neutrons/s. Yours advices are welcome. Thank you!
  10. Crazymechanic

    Nuclear reactor neutron absorber

    Hi could you please explain me what happens with the atomic structure and overall material structure of neutron absorber rods used in fission reactors? As I imagine when they are used they absorb the neutrons that keep the chain reaction going so to stop the chain reaction hence shut the...
  11. W

    Momentum of neutron, proton, electron

    If a proton, a neutron and an electron have the same total energy than rank the the particles in terms of most momentum to least momentum This is the first problem I attempted after learning about special relativity. I used the equation E^2 = \rho^2 c^2 + (m c^2 )^2 Since the energy is...
  12. Mordred

    Neutron Decay in Neutron Stars: Gravity or Half-Life?

    On decays I have only a preliminary understanding. I was looking up the half life of a neutron for another reason. The value I found for neutron decay for a free neutron was 10.3 seconds. Hope that's reasonably accurate. Anyways knowing that neutrons are stable in a nucleus held together...
  13. W

    How Does Uranium-238 Capture Neutrons and What Happens After?

    can anyone give an example in which a nucleus absorbs a neutron and becomes a stable nucleus? or the combination must break into parts?
  14. E

    What can we say about neutron stars?

    Homework Statement About neutron stars we can say that: a) They are newborn stars b) They are generated when a Solar-type star dies c) They are generated when a very massive star dies d) They are in the main sequence Homework Equations None. The Attempt at a Solution I'm...
  15. A

    Question-Rant on Hydrogen to Helium Fusion, and Proton to Neutron Conversion

    Part 1----------------------------------------- Ok, the site I have just read through is http://burro.astr.cwru.edu/stu/stars_lifedeath.html one. I have a few questions about it. Firstly, about the fusion of helium into hydrogen... http://burro.astr.cwru.edu/stu/media/fusion.jpg It...
  16. M

    BNCT(Boron Neutron Capture Therapy)

    My research is about Design and modeling of beam tube of nuclear reactor for BNCT(Boron Neutron Capture Therapy) application and I need some journals and related books about it.
  17. O

    Neutron, proton collision problem

    The following problem appeared on the A2 Edexcel Physics unit 4 exam paper January 2012 question 18. The solution, as given by the exam board, is attached. Question: 18. James Chadwick is credited with discovering the neutron in 1932. Beryllium was bombarded with alpha particles, knocking...
  18. S

    Neutron interferomerty with Protons?

    I have been looking for experiments demonstrating neutron interferomerty with protons or electrons instead, and found non. Should there be any difference? I refer to experiments in which, for example, the Mach-Zehnder interferometer is cut from a single crystal.
  19. A

    Mass & Charge of Proton, Neutron & Electron: Explained

    The mass of proton is 938mev/c2 where as mass of quarks in proton is 11 Mev/c2. Much of the reminder is gluon. But gluon does not have any mass. So how can it be gluon? Also in neutron decay, one d Quark transform itself into u quark by absorbing / emitting W boson. in this case W boson is...
  20. T

    Monte Carlo neutron slab model

    Hi All, Trying to write a simple Monte Carlo code for mono energetic neutrons in a steady state slab geometry in one-dimension. Their is an incident source on the left hand side of the slab and its of length L. I understand how to work out the path length and scattering angles based on...
  21. S

    The dispersion (standard deviation) of the estimator of neutron flux number

    Hello people, I think the problem what I have is well known in experimental physics. Hope, somebody can helps me, thanks in advance. Here is: There is a source of neutrons with a flux of λ neutrons per minute, which you do not know and want to estimate. You open the detector for one minute...
  22. D

    What is the de Broglie wavelength of a falling neutron in a vacuum?

    Homework Statement What is the de Broglie wavelength of a neutron that has fallen 0.60 in a vacuum chamber, starting from rest? Homework Equations Not entirely sure λ=h/mv The Attempt at a Solution I can't figure out what the velocity is, I think it would have to do with the change...
  23. R

    Understanding Gamma-Ray Emission in Gadolinium Neutron Capture

    neutron capture --> gamma's Someone could explain me how neutron capture in Gadolinium happens? If a neutron is captured, an energy of about 8 Mev is released in form of gamma-ray cascade (Ʃγ). But... how many gammas are released? I believe the answer will be in form of probability...
  24. M

    Calculating Binding Energy of Neutron Stars

    in general how to calculate binding energy of neutron star? in simple details, what tricks may be included in such a problem..
  25. G

    Solving Neutron Problems with Commercial Finite Element Method Codes

    As I know, the method to solve neutron problem is divided into two steps now, neutron transport calculation for fuel assemblies and neutron diffusion calculation for whole reactor core, both using specified code such as CASMO and SIMULATE from STUSVIK. I want to know whether the commercial...
  26. M

    Radioactive capture of proton and neutron

    Hi, I'm considering the following process n+p→d+\gamma where d is the deuteron and \gamma a photon. I want to find out the energy of the photon. I know it will be much less than the rest mass of the deuteron (1875.666 MeV/c2). Can I simply use conservation of energy here? i.e E\gamma...
  27. P

    Seeking referee-like comments on neutron detection technique in linked paper

    Hope mods will allow this. Seeking comments on neutron detection techniques described in the linked paper. Authors are affiliated with China Institute of Atomic Energy, Beijing. This is a LENR paper with no theoretical content. Full text is free to download...
  28. C

    Neutron star: smoothest surface in the universe?

    I wrote a paper in the physics department's student newspaper at my school, which described why, in my opinion, I considered a neutron star's surface as the smoothest surface in the universe, I considered the space between the particles at the surface (thousands of times smaller than at TPN...
  29. Drakkith

    Role of Strong Force in Neutron Stars

    Does the strong force have any major role in neutrons stars other than obviously holding individual nuclei together? Would low energy neutrons tend to "clump" together in the core?
  30. D

    Neutron flux in a finite medium

    Deaar all good morning I am very interested to the flux in a slab of extrapolated thickness a, containing distributed sources of neutron. A I have an example in which the source is given as s(x)=S(x+a/2) where S is a constant and x distance from the center of the slab. You mentioned in one...
  31. L

    Source of magnetic field of Neutron stars.

    If Neutron stars are what they are... I mean made of literally only neutrons ...how do they generate such immense magnetic field (of the order 10^8 or something) .. I think the name is somewhat misleading and it ought to have a near half ratio of protons ...But still being so compact how...
  32. P

    Neutron capture cross section of tritium is zero

    I wish to verify a couple of assertions. From the NNDC and other references, it appears that the neutron capture cross section of 3H (Tritium) is zero to a first approximation. This holds true for all neutron energies, including cold neutrons. These statements are equivalent to asserting that 4H...
  33. H

    Extracting thermal neutron cross-sections from ENDF libraries?

    Hi Everyone, Does anyone know of a tool that can extract thermal neutron cross-section data from endf for all availible isotopes? I'm trying to help my professor compile some data to modernize one of his courses. I'm trying to find a list of capture and scattering cross-sections for a wide...
  34. J

    What is the Color of a Neutron Star?

    I was wondering today what is the colour of pure neutrons confined together, I'd guess it's either completely black or white, because it doesn't have the electric orbitals needed to generate different wavelengths. I'm generally guessing it just reflects light and is therefore what... maybe a...
  35. D

    ACC Neutron Current Question: Calculating Net Neutron Flux and Direction

    Hello! J(Ω) = ∫n(Ω)vΩdΩ This is a neutron current question. It wants me to figure out the net neutron flux (and direction) through a unit area of the xy plane. It gives an equation for n(Ω) = (1/4π)(1-cosθ), but I am trying to figure out what Ω is inside the intergrand because that is...
  36. R

    Wikipedia misinterpreting neutron experiment as evidence for Quantum Gravity?

    In the Wikipedia article "Quantum Gravity", it claims that there is some experimental motivation for finding a quantum theory of gravity. In one of the experiments it cites, neutrons are found to jump between discrete quantum states in the Earth's gravitational potential, similar to the discrete...
  37. N

    Direct Coupling of Energy Groups, Multigroup Neutron Diffusion

    This one comes from Duderstadt and Hamilton, Problem 7-3. In multi-group diffusion theory What percentage of neutrons slowing down in hydrogen will tend to skip energy groups if the group structure is chosen such that \frac{E_{g-1}}{E_{g}}=100= 1/\alpha_{approx}. I know that the...
  38. R

    Gravitational Waves & Neutron Stars/Black Holes: Observed Velocity Decrease

    2 closely orbiting massive objects are predicted to deserve the fabric of spacetime so much that they will release a ripple of gravitational waves. When geavitational waves are released, they slowly loose velocity energy and spiral into one another. 2 pulsars were discovered orbiting each other...
  39. I

    Could Dark Matter Explain the Mystery of Shear Viscosity in Neutron Stars?

    The situation is this: In a neutron star the Coriolis force induces Rossby waves, just like on Earth. These are waves with very long wavelength -- like halfway around the Earth -- and very large volume but very little amplitude, like fifty meters. On Earth they have a big effect on climate...
  40. H

    Why are neutron rich isotopes unstable

    Ive been researching for a while now and i still can't understand why neutrons rich isotopes are unstable. As neutrons act like the glue and hold protons together as they increase the Strong Nuclear force that act upon protons and neutrons, i thought the more neutrons the stronger they would...
  41. A

    Neutron velocity selector and rotational speed of shaft

    Homework Statement Suppose that there is a beam of neutrons with a range of wavelengths. One intends to produce neutrons of single wavelength by the use of neutron mechanical velocity selector. The question is, if the slot in the disk B (second disk) of the selector lags the slot in the disk...
  42. N

    Conservation of Momentum; finding the angular speed of a Neutron star

    Homework Statement Under some circumstances, a star can collapse into an extremely dense object made mostly of neutrons and called a neutron star. The density of a neutron star is roughly 10^{14} times as great as that of ordinary solid matter. Suppose we represent the star as a uniform, solid...
  43. W

    Weak + and - and Z neutral, free neutron, etc.

    With beta decay a down quark turns into a up quark + W- results in e- and (anti-neutrino) and up quark turns into a down quark + W+ produces e+ + (neutrino), does the W- and W+ get emitted and then turn into e- + (anti-neutrino) or e+ + (neutrino) or do they stay in the nucleus? How does the Z...
  44. D

    What if Neutron Stars Collide: Matter, Mass & Metal

    what if...Neutron stars I know likely its been answered but if two neutron stars collid, it wouldn't seem that there combined massess would forum a black hole...if I recall that any matter striking the surface of a neutron star impacts with such violence that there is a massive explosion. So I...
  45. A

    Why does the normal hydrogen atom lack a neutron

    why is hydrogen the only element in the periodic table that lacks a neutron?
  46. D

    Will Neutron Stars Last Forever Without Proton Decay?

    If proton decay does not occur, will neutron stars just last for eternity unless something collides with them?
  47. S

    One group neutron diffusion calculation

    i need a help in solving ,using 1 group approxmation , estimate the critical size of cube consisting of 75% zirconium-91 and 25% plutonium--239 by volume , when the cube is surrounded by a vacumm. zr-91 microscopic cross section (capture)=0.00335 microscopic cross section (scattering )=5.89...
  48. S

    What Does Imp:n=0 Mean in MCNP and How Does it Affect Tally Results?

    hello, I am new to MCNP, could somebody tell me how to use imp:n, what is imp:n=0 means, if neutron importance is 0 in one cell, why the F4 tally is 0 in this cell? how about imp:n=1 or some large number? Thanks for all.
  49. I

    Neutron Star Stability: Does Proton Crust Matter?

    Ok, I know neutron stars are mainly composed of neutrons. But also, they have some protons and normal nuclei at their surfaces. Is this crust of protons needed to keep the neutrons below stable? As in, if it disappeared, would the neutrons below start decaying back to protons to form its...
  50. M

    Why do different nuclei need different neutron speed for neutron capture?

    Why do different nuclei need different neutron speed to achieve fission?? My understanding is that U-235 requires a thermal neutron in order to be likely to cause a fission reaction, however Pu-239 requires the additional energy of a fast neutron in order to cause the nucleus to undergo fission...
Back
Top