Difference between revisions of "Nuclear Equation"
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===General Formulae=== | ===General Formulae=== | ||
| − | + | Alpha Decay: <math>{}_Z^AX \rightarrow {}_{Z-2}^{A-4}Y + {}_4^2\alpha</math> | |
| − | <math>{}_Z^AX \rightarrow {}_{Z-2}^{A-4}Y + {}_4^2\alpha | ||
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| + | Beta Decay: <math>{}_Z^AX \rightarrow {}_{Z+1}^{A}Y + {}_{-1}^0\beta</math> | ||
| + | Gamma Emission: <math>{}_Z^AX \rightarrow {}_Z^AX + {}_0^0\gamma</math> | ||
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| + | Neutron Decay: <math>{}_Z^AX \rightarrow {}_{Z}^{A-1}Y + {}_0^1n</math> | ||
===Examples=== | ===Examples=== | ||
| + | <math>{}_{238}^{92}U \rightarrow {}_{234}^{90}Th + {}_4^2\alpha</math> | ||
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| + | <math>{}_{238}^{92}U \rightarrow {}_{234}^{90}Th + {}_4^2\alpha</math> | ||
===Calculating the Element/Isotope=== | ===Calculating the Element/Isotope=== | ||
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Revision as of 10:28, 8 March 2019
Contents
Key Stage 4
Meaning
A nuclear equation is a type of symbol equation used to show the changes which take place in a radioactive decay.
About Nuclear Equations
- Nuclear equations can be used to predict the products of a radioactive decay or a series of decays which take place one after the other.
- In nuclear equations the relative atomic mass and relative atomic charge accompany the symbols for the elements and the ionising radiation they produce.
General Formulae
Alpha Decay\[{}_Z^AX \rightarrow {}_{Z-2}^{A-4}Y + {}_4^2\alpha\]
Beta Decay\[{}_Z^AX \rightarrow {}_{Z+1}^{A}Y + {}_{-1}^0\beta\]
Gamma Emission\[{}_Z^AX \rightarrow {}_Z^AX + {}_0^0\gamma\]
Neutron Decay\[{}_Z^AX \rightarrow {}_{Z}^{A-1}Y + {}_0^1n\]
Examples
\({}_{238}^{92}U \rightarrow {}_{234}^{90}Th + {}_4^2\alpha\)
\({}_{238}^{92}U \rightarrow {}_{234}^{90}Th + {}_4^2\alpha\)