Normalization for mixing cards
$begingroup$
Let's assume I have N pair of king and queen cards. Each pair of king and queen was came together. What I want to do is to mix them together.
Let's assume : $N^+ = No of King $ , $N^- = No of Queen $, {King, Queen} = 1 pair.
If I do not let them stay together anymore and also if I also want to that a king can mix with another queen: It can happen in $N^2 -N$ ways.
What I'm confused about that How I can find the normalization?
statistics normal-distribution
$endgroup$
add a comment |
$begingroup$
Let's assume I have N pair of king and queen cards. Each pair of king and queen was came together. What I want to do is to mix them together.
Let's assume : $N^+ = No of King $ , $N^- = No of Queen $, {King, Queen} = 1 pair.
If I do not let them stay together anymore and also if I also want to that a king can mix with another queen: It can happen in $N^2 -N$ ways.
What I'm confused about that How I can find the normalization?
statistics normal-distribution
$endgroup$
add a comment |
$begingroup$
Let's assume I have N pair of king and queen cards. Each pair of king and queen was came together. What I want to do is to mix them together.
Let's assume : $N^+ = No of King $ , $N^- = No of Queen $, {King, Queen} = 1 pair.
If I do not let them stay together anymore and also if I also want to that a king can mix with another queen: It can happen in $N^2 -N$ ways.
What I'm confused about that How I can find the normalization?
statistics normal-distribution
$endgroup$
Let's assume I have N pair of king and queen cards. Each pair of king and queen was came together. What I want to do is to mix them together.
Let's assume : $N^+ = No of King $ , $N^- = No of Queen $, {King, Queen} = 1 pair.
If I do not let them stay together anymore and also if I also want to that a king can mix with another queen: It can happen in $N^2 -N$ ways.
What I'm confused about that How I can find the normalization?
statistics normal-distribution
statistics normal-distribution
asked Jan 3 at 8:45
user193422user193422
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