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- Neutron | Definition, Overview Facts - Lesson | Study. com
Neutrons The neutron is one of the three subatomic particles that make up an atom It exists in the nucleus of the atom alongside protons and makes up an atom's atomic mass with protons
- How many protons, neutrons, and electrons are in aluminum?
Aluminum has 13 protons, 13 electrons, and 14 neutrons To determine this, look first at the atomic number for aluminum, which is 13 This gives the
- How to calculate radiation dose from neutron source.
Could anybody advise me, where i can read about how to calculate radiation dose from neutron source for human body Excuse me for a second similar topic
- Nuclear Reactors: how you start the reaction? - Physics Forums
The fuel rods are placed into a specific pattern or whatever, and once you start to take out the control rods, the neutrons from the radioactive material gets through and sets off more reactions This starts a controlled Chain Reaction
- How do you create protons, neutrons, and electrons from energy?
For instance in an electron-positron collider, you can create a quark-antiquark pair that undergoes hadronization and gluon emission -> in those processes protons and neutrons (and other hadrons) can be created Also in a proton-antiproton collider and in a proton-proton collider, you will get free quarks and gluons that will undergo hadronization
- How to Determine the Number of Neutrons in an Isotope from its Mass . . .
Learn how to determine the number of neutrons in an isotope from its mass number, and see examples that walk you through step-by-step to improve your physics knowledge and skills
- Lithium | Li Neutrons, Protons Mining - Study. com
How many neutrons does lithium have? Subtracting the atomic number from the atomic mass number provides an element's number of neutrons because both protons and neutrons equal ~1 amu
- Why is it impossible to change the number of protons of an atom?
Are you speaking of changing it in terms of using chemical reactions? Protons and neutrons are tightly bound to the nucleus The amount of energy required to remove one is far greater than the energy typically found in chemical reactions
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