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.

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  1. G

    Understanding Nuclear Spin: Odd Proton and Neutron Counts

    hi i have a question about nuclear spin if the number of protons and neutrons is even, then my chemistry book says, that the nuclear spin is always zero. i guess that the reason is, that there are always 2 protons and 2 neutrons in one state with opposite spin and therefore the overall...
  2. G

    What happens when two neutrons collide and what particles might be produced?

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  3. L

    Estimate light, eletron, neutron beams energy

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  4. N

    Neutron Transport theory & One-speed Diffusion Theory Model.

    Any one have online documents showing the complete derivation of the both with the numerical solution ?
  5. J

    Neutron Stars vs Black Holes: What's the Difference?

    what is the difference between a neutron star and a black hole?
  6. A

    How to find a neutron dispersion curve

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  7. A

    Determining Neutron Wavelength with mass alone

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  8. G

    Electron & Neutron Absorbing Photons: Charge Explained

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  9. mrspeedybob

    How do neutron stars emit light?

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  10. T

    Can Simple Mass Accretion Turn a Neutron Star Into a Black Hole?

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  11. D

    Stability of fast neutron reactors with liquid metal coolant.

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  12. J

    Observing Thermodynamic Phase Transitions Via Neutron Scattering

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  13. B

    Q Value for spontaneous fission and neutron induced fission

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  14. S

    Proton and neutron configurations (shell model)

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  15. R

    Lower mass limit for neutron stars?

    I was wondering, does anyone know of a lower limit on the mass of a neutron star from fundamental physics? That is, the smallest it could be before its pressure would make it explode. I don't mean the Chandrasekhar limit, as that's the upper limit for a white dwarf. Neutron stars occurring...
  16. H

    Chadwick's discovery of the neutron - radiation

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  17. A

    How is a neutron captured by a proton?

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  18. D

    My neighbor's friend discovered the Neutron Dipole Moment

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  19. O

    Why doesn't the most common form of the hydrogen atom have a neutron?

    Most common isotopes of He has 2 neutrons, Li has 3 neutrons and so on right, until Z increases to higher numbers and we get to elements like iron, where the nucleus doesn't have equal numbers of protons and neutrons anymore. But why isn't the number of protons and neutrons equal in the most...
  20. J

    Neutron Capture Cross Section Dependence on Target Material Temperature

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  21. A

    Gravitational Potential Energy: Two Neutron Stars

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  22. Islam Hassan

    Would a Neutron Star Stop a Neutrino?

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  23. O

    Constraining final energies of neutron in nuclei interaction

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  24. Islam Hassan

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  25. D

    Neutrons & Electromagnetic Force: Q&A

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  26. A

    Neutron must travel so that kinetic energy = rest energy

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  27. L

    G-factor of electron, proton, and neutron don't cancel out

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  28. J

    Quick question about neutron scattering and absorption cross sections

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  29. A

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  30. A

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  31. C

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  32. P

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  33. marcus

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  34. daisey

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  35. Z

    Head-on collision between a neutron and stationary carbon atom.

    Ok so my problem is I have absolutely no idea where to start. I have been able to figure out other problems but this I can't get my head around. I am unsure as to the equations I need to use for collisions and how to obtain the correct answer. Homework Statement A nuclear reactor (see...
  36. J

    How would neutron star matter behave on earth?

    Neutrons have no charge, and in neutron stars we have matter that is only made of tightly packed neutrons. The mass is very great due to density. If I were to go fetch a baseball sized ball of neutron star matter from a neutron star and lay it on hard concrete ground... Other than making a...
  37. N

    Neutron Scattering: Why Hydrogen is Negative

    A very simple question, but needs to know proper explanation. Why the neutron scattering from hydrogen is negative while deuterium and almost all other atom has positive scattering?
  38. R

    Understanding Neutron Scattering from Nuclei: Questions and Answers

    Homework Statement I have a (numerically calculated) cross section for a neutron scattering from a nucleus which looks like: 1) Am I correct in saying that there are three resonant peaks and these correspond to three different resonant particles? 2) If so, are the lifetimes of the...
  39. E

    Exploring the Implications of 13 Neutron Beams at Fukushima

    Can someone explain what are the implications for the 13 neutron beams that have been observed at Fukushima? How are they created? What will cause more to be created?
  40. C

    Calculating the Number of Collisions Required for Neutron Moderation

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  41. C

    Max Neutron Output from Fusion: Power Requirements & Comparisons

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  42. Q

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  43. D

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  44. FtlIsAwesome

    What is the color of a neutron star?

    I'm wondering about the visual appearance of neutron stars up close. Do they continue to emit light like a white dwarf? Can cooled ones be gray or black? The xray emissions from pulsars will not be visible to us. Due to their high mass, they will bend light in a similar manner to a black hole...
  45. B

    Exploring Neutron Decay in the Early Universe: The Mystery Unraveled!

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  46. bcrowell

    Exploring Superfluidity in Neutron Stars: A Crayon Explanation

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  47. S

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  48. J

    Neutron Dipole Moment: Parity & T-Symmetry Violation?

    I have been wondering recently about the neutron dipole moment, after looking it up with the limited things available on the internet (to my knowledge anyway :) ) I have a few questions hopefully someone could answer for me. Firstly of the three symmetries, as I understand it, Parity, Charge...
  49. J

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  50. H

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