Mga halimbawa ng paggamit ng Neutrons sa Ingles at ang kanilang mga pagsasalin sa Tagalog
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Protons and neutrons are nucleons.
Be 100% Be is stable with 5 neutrons.
Be 100% Ang 9Be ay tumatagal sa may 5 neutron.Neutrons consist of one up quark and two down quarks.
Neutrons binubuo ng isa hanggang quark at down na dalawang quarks.Which includes protons,electrons and neutrons.
At kabilang dito ang protons,electrons at neutrons.However, the hydrogen-1 atom has no neutrons and the hydron ion has no electrons.
Gayunpaman, ang hydrogen-1 atom ay walang neutrons at ang hydron ion ay walang mga electron.Protons are about 99.86% as massive as neutrons.
Ang The hydrogen-1 atom does not have any neutrons and the hydron ion does not have any electrons.
Ang hydrogen-1 atom ay walang neutrons at ang hydron ion ay walang mga electron.Neutron radiation- isang stream ng mga neutral na Electrons are about 0.054% as massive as neutrons, according to Jefferson Lab.
Ang Neptunium has also been used in detectors of high-energy neutrons.
Ang Neptunium ay ginamit din sa Quarks came together to form protons and neutrons, and these particles combined into nuclei.
Ang mga Quarks ay sama-sama upang makabuo ng mga proton at neutron, at ang mga particle na ito ay pinagsama sa nuclei.Because neutrons have no electrical charge,neutron radiation has a high penetrating power.
Dahil neutrons ay walang mga de-koryenteng singil, neutron radiation ay may isang mataas na matalim kapangyarihan.The large majority of an atom's mass comes from the protons and neutrons that make it up.
Ang malaking karamihan ng isang atom masa ay mula sa mga protons at neutrons na gumawa ng up ang mga ito.Depending on the kinetic energy of the neutrons are divided into fast, ultra-fast, intermediate, and slow heat.
Depende sa kinetiko enerhiya ng mga neutrons ay nahahati sa mabilis, ultra-mabilis, intermediate, at mabagal na init.The most likely candidate for a stable superheavy atom, unbihexium,has 126 protons and 184 neutrons.
Ang mga pinaka-malamang na kandidato para sa isang matatag na superheavy atom, unbihexium,ay 126 protons at 184 neutrons.Neutrons were found during experiments when atoms were shot at a thin sheet of beryllium.
Ang mga neutron ay natagpuan sa panahon ng The most common species of ionizing radiation such as X-ray and gamma-ray fluxes of alpha particles,electrons, neutrons and protons.
Ang pinaka-karaniwang uri ng hayop ng ionizing radiation tulad ng X-ray at gamma-ray fluxes ng alpha particle,electron, neutrons at protons.All of the bound protons and neutrons in an atom make up a tiny atomic nucleus, and are collectively called nucleons.
Ang lahat ng mga tinali protons at neutrons sa isang atom gumawa ng up ng isang maliit na atomic nucleus, at sama-sama na tinatawag na nucleon.Isotopes were then explained as elements with the same number of protons, butdifferent numbers of neutrons within the nucleus.
Isotopes ay pagkatapos ay ipinaliwanag bilang mga elemento na may parehong bilang ng mga protons,ngunit iba' t ibang mga numero ng neutrons sa loob ng nucleus.The number of neutrons relative to the protons determines the stability of the nucleus, with certain isotopes undergoing radioactive decay.
Ang bilang ng neutron kamag-anak upang ang mga protons na tumutukoy sa katatagan ng nucleus, na may ilang mga isotopes sumasailalim sa radioactive pagkabulok.Opredelenie not apply to unirradiated natural uranium and depleted uranium, and as such,which has been irradiated in thermal reactors neutrons.
Opredelenie hindi akma sa unirradiated natural uranium at ubos na yureyniyum, at dahil dito, nakung saan ay irradiated sa thermal reactors neutrons.Other exotic atoms have been created by replacing one of the protons, neutrons or electrons with other particles that have the same charge.
Iba pang galing sa ibang bansa mga atoms ay nilikha sa pamamagitan ng pagpapalit ng isa ng ang protons, neutrons o mga electron sa iba pang mga particle na may parehong mga singil.Neutron radiation ay ginawa kapag ang sisingilin tinga accelerators at reactors, nabumubuo ng malakas na daloy ng mabilis at thermal neutrons.It, along with the down quark, forms the neutrons(one up quark, two down quarks) and protons(two up quarks, one down quark) of atomic nuclei.
Ito, kasama The protons havea positive electric charge, the electrons have a negative electric charge, and the neutrons have no electric charge.
Zirconium is practically transparent to free neutrons, used in building reactors, but hafnium is a very strong absorber of neutrons, used in reactor control rods.
Zirconium ay halos transparent sa libreng neutrons, na ginagamit sa pagbuo ng reactors, ngunit hafnium ay isang napakalakas na absorber ng neutrons, na ginagamit sa reaktor control rods.There he worked on programs associated with the Manhattan Project,using his expertise in applying statistical mechanics to the behaviour of neutrons in a chain reaction.
Doon siya nagtrabaho sa mga programa na may kaugnayan sa Manhattan Project,gamit ang kanyang kadalubhasaan sa mga nag-aaplay statistical mechanics sa pag-uugali ng neutrons sa isang chain reaction.A few minutes into the expansion, when the temperature was about a billion(one thousand million) kelvin andthe density was about that of air, neutrons combined with protons to form the universe's deuterium and helium nuclei in a process called Big Bang nucleosynthesis.
Sa ilang More than 99.94% of an atom's mass is in the nucleus.The protons have a positive electric charge, the electrons have a negative electric charge, and the neutrons have no electric charge.
A few large nuclei explode into two or more charged fragments of varying masses plus several neutrons, in a decay called spontaneous nuclear fission.
Ang ilang 
