proving that a graph has only one minimum spanning tree if and only if G has only one maximum spanning tree












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Is this claim true?
I thought about it and it seems true but for proving it i started with one direction by assuming that i have one minimum spanning tree and i want to show that from this i have also one maximum spanning tree.



Can i claim from having one minimum spanning tree the weight of every edge is different and then use this proof Show that there's a unique minimum spanning tree if all edges have different costs ?










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    0












    $begingroup$


    Is this claim true?
    I thought about it and it seems true but for proving it i started with one direction by assuming that i have one minimum spanning tree and i want to show that from this i have also one maximum spanning tree.



    Can i claim from having one minimum spanning tree the weight of every edge is different and then use this proof Show that there's a unique minimum spanning tree if all edges have different costs ?










    share|cite|improve this question









    $endgroup$















      0












      0








      0


      1



      $begingroup$


      Is this claim true?
      I thought about it and it seems true but for proving it i started with one direction by assuming that i have one minimum spanning tree and i want to show that from this i have also one maximum spanning tree.



      Can i claim from having one minimum spanning tree the weight of every edge is different and then use this proof Show that there's a unique minimum spanning tree if all edges have different costs ?










      share|cite|improve this question









      $endgroup$




      Is this claim true?
      I thought about it and it seems true but for proving it i started with one direction by assuming that i have one minimum spanning tree and i want to show that from this i have also one maximum spanning tree.



      Can i claim from having one minimum spanning tree the weight of every edge is different and then use this proof Show that there's a unique minimum spanning tree if all edges have different costs ?







      graph-theory trees






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      asked Dec 29 '18 at 13:36









      user3133165user3133165

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      1978






















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          $begingroup$

          It's not true.



          Let $G$ be $K_n$ and let $P$ be a Hamilonian path in $G=K_n$. [Say $i$ and $j$ are adjacent in $P$ iff $|i-j|=1$, then two vertices $i$ and $j$ are adjacent in $G setminus E(P)$ iff $|i-j| ge 2$. One can check that $G setminus E(P)$ is connected for $n ge 6$ and has many cycles.]



          Give every edge in $P$ a weight of 100 and every edge in $G setminus E(P)$ a weight of 1. Then $G$ has one maximum-weight spanning tree--namely $P$, but many minimum spanning trees; indeed $G setminus E(P)$ is connected and has many cycles so any spanning tree of $G setminus E(P)$ is a minimum spanning tree, and $G setminus E(P)$ has more than one spanning tree.






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            $begingroup$

            It's not true.



            Let $G$ be $K_n$ and let $P$ be a Hamilonian path in $G=K_n$. [Say $i$ and $j$ are adjacent in $P$ iff $|i-j|=1$, then two vertices $i$ and $j$ are adjacent in $G setminus E(P)$ iff $|i-j| ge 2$. One can check that $G setminus E(P)$ is connected for $n ge 6$ and has many cycles.]



            Give every edge in $P$ a weight of 100 and every edge in $G setminus E(P)$ a weight of 1. Then $G$ has one maximum-weight spanning tree--namely $P$, but many minimum spanning trees; indeed $G setminus E(P)$ is connected and has many cycles so any spanning tree of $G setminus E(P)$ is a minimum spanning tree, and $G setminus E(P)$ has more than one spanning tree.






            share|cite|improve this answer









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              2












              $begingroup$

              It's not true.



              Let $G$ be $K_n$ and let $P$ be a Hamilonian path in $G=K_n$. [Say $i$ and $j$ are adjacent in $P$ iff $|i-j|=1$, then two vertices $i$ and $j$ are adjacent in $G setminus E(P)$ iff $|i-j| ge 2$. One can check that $G setminus E(P)$ is connected for $n ge 6$ and has many cycles.]



              Give every edge in $P$ a weight of 100 and every edge in $G setminus E(P)$ a weight of 1. Then $G$ has one maximum-weight spanning tree--namely $P$, but many minimum spanning trees; indeed $G setminus E(P)$ is connected and has many cycles so any spanning tree of $G setminus E(P)$ is a minimum spanning tree, and $G setminus E(P)$ has more than one spanning tree.






              share|cite|improve this answer









              $endgroup$
















                2












                2








                2





                $begingroup$

                It's not true.



                Let $G$ be $K_n$ and let $P$ be a Hamilonian path in $G=K_n$. [Say $i$ and $j$ are adjacent in $P$ iff $|i-j|=1$, then two vertices $i$ and $j$ are adjacent in $G setminus E(P)$ iff $|i-j| ge 2$. One can check that $G setminus E(P)$ is connected for $n ge 6$ and has many cycles.]



                Give every edge in $P$ a weight of 100 and every edge in $G setminus E(P)$ a weight of 1. Then $G$ has one maximum-weight spanning tree--namely $P$, but many minimum spanning trees; indeed $G setminus E(P)$ is connected and has many cycles so any spanning tree of $G setminus E(P)$ is a minimum spanning tree, and $G setminus E(P)$ has more than one spanning tree.






                share|cite|improve this answer









                $endgroup$



                It's not true.



                Let $G$ be $K_n$ and let $P$ be a Hamilonian path in $G=K_n$. [Say $i$ and $j$ are adjacent in $P$ iff $|i-j|=1$, then two vertices $i$ and $j$ are adjacent in $G setminus E(P)$ iff $|i-j| ge 2$. One can check that $G setminus E(P)$ is connected for $n ge 6$ and has many cycles.]



                Give every edge in $P$ a weight of 100 and every edge in $G setminus E(P)$ a weight of 1. Then $G$ has one maximum-weight spanning tree--namely $P$, but many minimum spanning trees; indeed $G setminus E(P)$ is connected and has many cycles so any spanning tree of $G setminus E(P)$ is a minimum spanning tree, and $G setminus E(P)$ has more than one spanning tree.







                share|cite|improve this answer












                share|cite|improve this answer



                share|cite|improve this answer










                answered Dec 29 '18 at 19:22









                MikeMike

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                4,686512






























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