Number of 'Tri - Coloured Triangles' in a random graph.











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I am attempting some practice questions where no answers are given. Would it be possible to verify my solution for this particular problem?



Let RBG be a coloured random graph with $n$ vertices ${1, 2, · · · , n}$, where every
pair of vertices is connected either by a red edge (with probability $p$) or by a blue edge (with
probability $q$) or by a green edge (with probability $r$), such that $p + q + r = 1$. (Note that all
edges are present, but each edge carries exactly one of three different colours - red, blue or green)



A set of three vertices ${i, j, k$} is said to form a “tri-coloured triangle” if
the triangle formed by ${i, j, k}$ has exactly one red edge, exactly one blue edge and exactly
one green edge. Let $N_3$ denote the number of tri-coloured triangles in the coloured random
graph RBG. Calculate $E(N_3)$



My approach is as follows



Given a triangle, there are $3! = 6$ ways of colouring the triangle such that each edge has a distinct colour.



Therefore, $P(text{A triangle is tri - coloured}) = 6pqr$.



There are ${n}choose{3}$ ways of choosing 3 vertices in the random graph.



Therefore, $E(N_3) =$ ${n}choose{3}$ $6pqr = n(n-1)(n-2)pqr$










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  • Perfect, except for five missing full stops.
    – bof
    Dec 2 at 4:55










  • Thank you, @bof ! :)
    – dzl
    Dec 3 at 5:27















up vote
0
down vote

favorite












I am attempting some practice questions where no answers are given. Would it be possible to verify my solution for this particular problem?



Let RBG be a coloured random graph with $n$ vertices ${1, 2, · · · , n}$, where every
pair of vertices is connected either by a red edge (with probability $p$) or by a blue edge (with
probability $q$) or by a green edge (with probability $r$), such that $p + q + r = 1$. (Note that all
edges are present, but each edge carries exactly one of three different colours - red, blue or green)



A set of three vertices ${i, j, k$} is said to form a “tri-coloured triangle” if
the triangle formed by ${i, j, k}$ has exactly one red edge, exactly one blue edge and exactly
one green edge. Let $N_3$ denote the number of tri-coloured triangles in the coloured random
graph RBG. Calculate $E(N_3)$



My approach is as follows



Given a triangle, there are $3! = 6$ ways of colouring the triangle such that each edge has a distinct colour.



Therefore, $P(text{A triangle is tri - coloured}) = 6pqr$.



There are ${n}choose{3}$ ways of choosing 3 vertices in the random graph.



Therefore, $E(N_3) =$ ${n}choose{3}$ $6pqr = n(n-1)(n-2)pqr$










share|cite|improve this question






















  • Perfect, except for five missing full stops.
    – bof
    Dec 2 at 4:55










  • Thank you, @bof ! :)
    – dzl
    Dec 3 at 5:27













up vote
0
down vote

favorite









up vote
0
down vote

favorite











I am attempting some practice questions where no answers are given. Would it be possible to verify my solution for this particular problem?



Let RBG be a coloured random graph with $n$ vertices ${1, 2, · · · , n}$, where every
pair of vertices is connected either by a red edge (with probability $p$) or by a blue edge (with
probability $q$) or by a green edge (with probability $r$), such that $p + q + r = 1$. (Note that all
edges are present, but each edge carries exactly one of three different colours - red, blue or green)



A set of three vertices ${i, j, k$} is said to form a “tri-coloured triangle” if
the triangle formed by ${i, j, k}$ has exactly one red edge, exactly one blue edge and exactly
one green edge. Let $N_3$ denote the number of tri-coloured triangles in the coloured random
graph RBG. Calculate $E(N_3)$



My approach is as follows



Given a triangle, there are $3! = 6$ ways of colouring the triangle such that each edge has a distinct colour.



Therefore, $P(text{A triangle is tri - coloured}) = 6pqr$.



There are ${n}choose{3}$ ways of choosing 3 vertices in the random graph.



Therefore, $E(N_3) =$ ${n}choose{3}$ $6pqr = n(n-1)(n-2)pqr$










share|cite|improve this question













I am attempting some practice questions where no answers are given. Would it be possible to verify my solution for this particular problem?



Let RBG be a coloured random graph with $n$ vertices ${1, 2, · · · , n}$, where every
pair of vertices is connected either by a red edge (with probability $p$) or by a blue edge (with
probability $q$) or by a green edge (with probability $r$), such that $p + q + r = 1$. (Note that all
edges are present, but each edge carries exactly one of three different colours - red, blue or green)



A set of three vertices ${i, j, k$} is said to form a “tri-coloured triangle” if
the triangle formed by ${i, j, k}$ has exactly one red edge, exactly one blue edge and exactly
one green edge. Let $N_3$ denote the number of tri-coloured triangles in the coloured random
graph RBG. Calculate $E(N_3)$



My approach is as follows



Given a triangle, there are $3! = 6$ ways of colouring the triangle such that each edge has a distinct colour.



Therefore, $P(text{A triangle is tri - coloured}) = 6pqr$.



There are ${n}choose{3}$ ways of choosing 3 vertices in the random graph.



Therefore, $E(N_3) =$ ${n}choose{3}$ $6pqr = n(n-1)(n-2)pqr$







probability graph-theory expected-value






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asked Dec 2 at 4:50









dzl

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348214












  • Perfect, except for five missing full stops.
    – bof
    Dec 2 at 4:55










  • Thank you, @bof ! :)
    – dzl
    Dec 3 at 5:27


















  • Perfect, except for five missing full stops.
    – bof
    Dec 2 at 4:55










  • Thank you, @bof ! :)
    – dzl
    Dec 3 at 5:27
















Perfect, except for five missing full stops.
– bof
Dec 2 at 4:55




Perfect, except for five missing full stops.
– bof
Dec 2 at 4:55












Thank you, @bof ! :)
– dzl
Dec 3 at 5:27




Thank you, @bof ! :)
– dzl
Dec 3 at 5:27















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