Difference between revisions of "Neutron"
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===About Neutrons=== | ===About Neutrons=== | ||
+ | : The [[neutron]] is denoted with a lower case '''n'''. | ||
: A '''neutron''' is one of two [[baryon]]s found in the [[Atomic Nucleus|atomic nucleus]]. | : A '''neutron''' is one of two [[baryon]]s found in the [[Atomic Nucleus|atomic nucleus]]. | ||
: '''Neutrons''' have a [[Electrical Charge|charge]] of zero and a [[mass]] of 1.67x10<sup>-27</sup>kg. | : '''Neutrons''' have a [[Electrical Charge|charge]] of zero and a [[mass]] of 1.67x10<sup>-27</sup>kg. |
Revision as of 07:57, 19 July 2019
Key Stage 4
Meaning
The Neutron is a neutral particle found in the nucleus of an atom.
About Neutrons
- Neutrons are a type of nucleon.
- Neutrons have a relative atomic charge of 0 and a relative atomic mass of 1.
- The number of neutrons in an atom can be found subtracting the Atomic Number from the Relative Atomic Mass.
Hydrogen | Helium | Lithium | Beryllium |
This atom has an Atomic Number (Z) of 1 and a Relative Atomic Mass (A) of 1.
Number of neutrons = A - Z Number of neutrons = 1 - 1 Number of neutrons = 0 |
This atom has an Atomic Number (Z) of 2 and a Relative Atomic Mass (A) of 4.
Number of neutrons = A - Z Number of neutrons = 4 - 2 Number of neutrons = 2 |
This atom has an Atomic Number (Z) of 3 and a Relative Atomic Mass (A) of 7.
Number of neutrons = A - Z Number of neutrons = 7 - 3 Number of neutrons = 4 |
This atom has an Atomic Number (Z) of 4 and a Relative Atomic Mass (A) of 9.
Number of neutrons = A - Z Number of neutrons = 9 - 4 Number of neutrons = 5 |
Key Stage 5
Meaning
A neutron (n) is a baryon made from 1 up-quark and 2 down-quarks.
About Neutrons
- The neutron is denoted with a lower case n.
- A neutron is one of two baryons found in the atomic nucleus.
- Neutrons have a charge of zero and a mass of 1.67x10-27kg.
- A neutron is only stable in the nucleus of an atom. However a free neutron has a mean lifeftime of around 15 minutes before it decays via the weak interaction into a proton and an electron.
Subatomic Particle | Quark-composition | Charge/e | Strangeness | Baryon Number | Lepton Number |
\(udd\) | \(Q=0\) | \(S=0\) | \(B=+1\) | \(L=0\) | |
\(\bar{u}\bar{d}\bar{d}\) | \(Q=0\) | \(S=0\) | \(B=-1\) | \(L=0\) |