Difference between revisions of "Nuclear Equation"

Revision as of 10:43, 8 March 2019

A nuclear equation is a type of symbol equation used to show the changes which take place in a radioactive decay.

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.

Alpha Decay\[{}_Z^AX \rightarrow {}_{Z-2}^{A-4}Y + {}_2^4\alpha\]

Beta Decay\[{}_Z^AX \rightarrow {}_{Z+1}^{A}Y + {}_{-1}^{{}0}\beta\]

Gamma Emission\[{}_Z^AX \rightarrow {}_Z^AX + {}_0^0\gamma\]

Neutron Decay\[{}_Z^AX \rightarrow {}_{Z}^{A-1}Y + {}_0^1n\]

\({}_{92}^{238}U \rightarrow {}_{90}^{234}Th + {}_2^4\alpha\)

\({}_{28}^{65}Ni \rightarrow {}_{29}^{65}Cu + {}_{-1}^0\beta\)

\({}_{42}^{99}Mo \rightarrow {}_{42}^{99}Mo + {}_0^0\gamma\)

\({}_{8}^{18}O \rightarrow {}_{8}^{17}O + {}_0^1n\)

Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx	Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx
1. Calculate the relative atomic mass by looking at the top row of numbers.	1. Calculate the relative atomic mass by looking at the top row of numbers.
2. Calculate the relative atomic charge by looking at the bottom row of numbers.	2. Calculate the relative atomic charge by looking at the bottom row of numbers.
3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.	3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.

Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx	Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx
1. Calculate the relative atomic mass by looking at the top row of numbers.	1. Calculate the relative atomic mass by looking at the top row of numbers.
2. Calculate the relative atomic charge by looking at the bottom row of numbers.	2. Calculate the relative atomic charge by looking at the bottom row of numbers.
3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.	3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.

Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx	Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx
1. Calculate the relative atomic mass by looking at the top row of numbers.	1. Calculate the relative atomic mass by looking at the top row of numbers.
2. Calculate the relative atomic charge by looking at the bottom row of numbers.	2. Calculate the relative atomic charge by looking at the bottom row of numbers.
3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.	3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.

Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx	Find the element 'X' and calculate its relative atomic mass 'A' and its relative atomic charge 'Z'. xxxxx
1. Calculate the relative atomic mass by looking at the top row of numbers.	1. Calculate the relative atomic mass by looking at the top row of numbers.
2. Calculate the relative atomic charge by looking at the bottom row of numbers.	2. Calculate the relative atomic charge by looking at the bottom row of numbers.
3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.	3. Since the relative atomic charge is the same as the atomic number look up the element on the periodic table.

@@ Line 10: / Line 10: @@
 Alpha Decay: <math>{}_Z^AX \rightarrow {}_{Z-2}^{A-4}Y + {}_2^4\alpha</math>
-Beta Decay: <math>{}_Z^AX \rightarrow {}_{Z+1}^{A}Y + {}_{-1}^{ 0}\beta</math>
+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>