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My Graph Theory Students
Sleeping studentsTwo students guessing positive integerThe Robostanchion Exam (a puzzle about game-graph connectedness)School where every pair of students share a common grandfatherLabelling a graph with a partition of 100Picture a graph without wordsHunter chasing a fox on a graphNumber Theory classNumber Theory Class v2Identify this type of graph puzzle
$begingroup$
I have 18 students in my graph theory course this semester: Anne, Bernard, Clare, David,..., and Rachel. At the start of the course I asked them to draw the graph below, in which each of them is represented by a vertex, two of which are joined by a line if, and only if, they represent two students who are friends.
Fewer than half my students turned up for class last Friday. However, because each of the absent students happened to be friends with at least one of those who did attend, I was able to return everyone's assignments either personally or through a friend. In fact, had a smaller group of students shown up for my class on Friday, I would have been unable to do this.
How may students attended my class on Friday, and who were they?
mathematics no-computers graph-theory
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
$endgroup$
add a comment |
$begingroup$
I have 18 students in my graph theory course this semester: Anne, Bernard, Clare, David,..., and Rachel. At the start of the course I asked them to draw the graph below, in which each of them is represented by a vertex, two of which are joined by a line if, and only if, they represent two students who are friends.
Fewer than half my students turned up for class last Friday. However, because each of the absent students happened to be friends with at least one of those who did attend, I was able to return everyone's assignments either personally or through a friend. In fact, had a smaller group of students shown up for my class on Friday, I would have been unable to do this.
How may students attended my class on Friday, and who were they?
mathematics no-computers graph-theory
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
$endgroup$
add a comment |
$begingroup$
I have 18 students in my graph theory course this semester: Anne, Bernard, Clare, David,..., and Rachel. At the start of the course I asked them to draw the graph below, in which each of them is represented by a vertex, two of which are joined by a line if, and only if, they represent two students who are friends.
Fewer than half my students turned up for class last Friday. However, because each of the absent students happened to be friends with at least one of those who did attend, I was able to return everyone's assignments either personally or through a friend. In fact, had a smaller group of students shown up for my class on Friday, I would have been unable to do this.
How may students attended my class on Friday, and who were they?
mathematics no-computers graph-theory
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
$endgroup$
I have 18 students in my graph theory course this semester: Anne, Bernard, Clare, David,..., and Rachel. At the start of the course I asked them to draw the graph below, in which each of them is represented by a vertex, two of which are joined by a line if, and only if, they represent two students who are friends.
Fewer than half my students turned up for class last Friday. However, because each of the absent students happened to be friends with at least one of those who did attend, I was able to return everyone's assignments either personally or through a friend. In fact, had a smaller group of students shown up for my class on Friday, I would have been unable to do this.
How may students attended my class on Friday, and who were they?
mathematics no-computers graph-theory
mathematics no-computers graph-theory
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
asked 11 hours ago
Bernardo Recamán SantosBernardo Recamán Santos
2,6891348
2,6891348
add a comment |
add a comment |
2 Answers
2
active
oldest
votes
$begingroup$
This is an excellent question to demonstrate why the greedy algorithm doesn't always work
The minimum number is actually
$4$
Here are the students which would satisfy the criteria (I think this group is unique)
$F, J, N, O$ (Frank, Jack, Norman, Orville)
Proof that this is minimal
As El-Guest pointed out the maximum number of friendships in the group are held by $M$ & $E$ with $6$ & $5$, respectively. Every other person has four friends or fewer. Therefore, the maximum possible number of people covered by three students is $7+6+5 = 18$. This could only possibly be achieved if $M$ and $E$ were in the group of three but, as El-Guest explored, you need to add three more students to cover everyone else.
answered 10 hours ago
hexominohexomino
43.3k3129207
$endgroup$
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
add a comment |
$begingroup$
I'd assume that you'd want
to have the students attend which have the maximum number of friendships...
So:
M & E have 6 & 5 friendships respectively, then P,Q,R,D,F,J don't have to go thanks to M; and A,H,K,N,R don't have to go thanks to E. This leaves us with B,C,G,I,L,O who we need to deal with. O is only connected to P,Q,R, so they have to attend; C is connected with G,I,L; and then B is the last one left who has to show up.
The minimum number of students is therefore
5, and they are Megan, Ethan, Billy, Chris, and Orville.
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
$endgroup$
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
3
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
1
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
add a comment |
Your Answer
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
This is an excellent question to demonstrate why the greedy algorithm doesn't always work
The minimum number is actually
$4$
Here are the students which would satisfy the criteria (I think this group is unique)
$F, J, N, O$ (Frank, Jack, Norman, Orville)
Proof that this is minimal
As El-Guest pointed out the maximum number of friendships in the group are held by $M$ & $E$ with $6$ & $5$, respectively. Every other person has four friends or fewer. Therefore, the maximum possible number of people covered by three students is $7+6+5 = 18$. This could only possibly be achieved if $M$ and $E$ were in the group of three but, as El-Guest explored, you need to add three more students to cover everyone else.
answered 10 hours ago
hexominohexomino
43.3k3129207
$endgroup$
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
add a comment |
$begingroup$
This is an excellent question to demonstrate why the greedy algorithm doesn't always work
The minimum number is actually
$4$
Here are the students which would satisfy the criteria (I think this group is unique)
$F, J, N, O$ (Frank, Jack, Norman, Orville)
Proof that this is minimal
As El-Guest pointed out the maximum number of friendships in the group are held by $M$ & $E$ with $6$ & $5$, respectively. Every other person has four friends or fewer. Therefore, the maximum possible number of people covered by three students is $7+6+5 = 18$. This could only possibly be achieved if $M$ and $E$ were in the group of three but, as El-Guest explored, you need to add three more students to cover everyone else.
answered 10 hours ago
hexominohexomino
43.3k3129207
$endgroup$
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
add a comment |
$begingroup$
This is an excellent question to demonstrate why the greedy algorithm doesn't always work
The minimum number is actually
$4$
Here are the students which would satisfy the criteria (I think this group is unique)
$F, J, N, O$ (Frank, Jack, Norman, Orville)
Proof that this is minimal
As El-Guest pointed out the maximum number of friendships in the group are held by $M$ & $E$ with $6$ & $5$, respectively. Every other person has four friends or fewer. Therefore, the maximum possible number of people covered by three students is $7+6+5 = 18$. This could only possibly be achieved if $M$ and $E$ were in the group of three but, as El-Guest explored, you need to add three more students to cover everyone else.
answered 10 hours ago
hexominohexomino
43.3k3129207
$endgroup$
This is an excellent question to demonstrate why the greedy algorithm doesn't always work
The minimum number is actually
$4$
Here are the students which would satisfy the criteria (I think this group is unique)
$F, J, N, O$ (Frank, Jack, Norman, Orville)
Proof that this is minimal
As El-Guest pointed out the maximum number of friendships in the group are held by $M$ & $E$ with $6$ & $5$, respectively. Every other person has four friends or fewer. Therefore, the maximum possible number of people covered by three students is $7+6+5 = 18$. This could only possibly be achieved if $M$ and $E$ were in the group of three but, as El-Guest explored, you need to add three more students to cover everyone else.
answered 10 hours ago
hexominohexomino
43.3k3129207
edited 10 hours ago
answered 10 hours ago
hexominohexomino
43.3k3129207
answered 10 hours ago
hexominohexomino
43.3k3129207
answered 10 hours ago
hexominohexomino
43.3k3129207
43.3k3129207
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
add a comment |
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
$begingroup$
I used a solver, getting the same solution and only this one ; hence i am pretty sure it is unique.
$endgroup$
– aluriak
7 hours ago
add a comment |
$begingroup$
I'd assume that you'd want
to have the students attend which have the maximum number of friendships...
So:
M & E have 6 & 5 friendships respectively, then P,Q,R,D,F,J don't have to go thanks to M; and A,H,K,N,R don't have to go thanks to E. This leaves us with B,C,G,I,L,O who we need to deal with. O is only connected to P,Q,R, so they have to attend; C is connected with G,I,L; and then B is the last one left who has to show up.
The minimum number of students is therefore
5, and they are Megan, Ethan, Billy, Chris, and Orville.
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
$endgroup$
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
3
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
1
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
add a comment |
$begingroup$
I'd assume that you'd want
to have the students attend which have the maximum number of friendships...
So:
M & E have 6 & 5 friendships respectively, then P,Q,R,D,F,J don't have to go thanks to M; and A,H,K,N,R don't have to go thanks to E. This leaves us with B,C,G,I,L,O who we need to deal with. O is only connected to P,Q,R, so they have to attend; C is connected with G,I,L; and then B is the last one left who has to show up.
The minimum number of students is therefore
5, and they are Megan, Ethan, Billy, Chris, and Orville.
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
$endgroup$
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
3
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
1
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
add a comment |
$begingroup$
I'd assume that you'd want
to have the students attend which have the maximum number of friendships...
So:
M & E have 6 & 5 friendships respectively, then P,Q,R,D,F,J don't have to go thanks to M; and A,H,K,N,R don't have to go thanks to E. This leaves us with B,C,G,I,L,O who we need to deal with. O is only connected to P,Q,R, so they have to attend; C is connected with G,I,L; and then B is the last one left who has to show up.
The minimum number of students is therefore
5, and they are Megan, Ethan, Billy, Chris, and Orville.
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
$endgroup$
I'd assume that you'd want
to have the students attend which have the maximum number of friendships...
So:
M & E have 6 & 5 friendships respectively, then P,Q,R,D,F,J don't have to go thanks to M; and A,H,K,N,R don't have to go thanks to E. This leaves us with B,C,G,I,L,O who we need to deal with. O is only connected to P,Q,R, so they have to attend; C is connected with G,I,L; and then B is the last one left who has to show up.
The minimum number of students is therefore
5, and they are Megan, Ethan, Billy, Chris, and Orville.
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
answered 11 hours ago
El-GuestEl-Guest
20.5k24590
20.5k24590
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
3
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
1
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
add a comment |
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
3
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
1
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
$begingroup$
I figured as much, I didn't like how two of the students had to double up.
$endgroup$
– El-Guest
11 hours ago
3
3
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
$begingroup$
How do you know this is minimal?
$endgroup$
– noedne
10 hours ago
1
1
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
$begingroup$
I didn’t, as clearly demonstrated by hexomino’s answer.
$endgroup$
– El-Guest
10 hours ago
add a comment |
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