Today I had my algorithms quiz for the semester and I can't figure out these two questions and they've been bugging me all day. I've gone through my notes and the lecture notes and I'm still unsure. I would appreciate it if someone could take a look and provide some insight into these questions. These are not homework and I've already sat the quiz.

True or False questions

1) [Paraphrased] The maximum number of edges in a bipartite graph with n vertices is n(n-1)/2.

I put this down as False, my logic is that n verticies means we have two n/2 rows. The first node has n/2 connections to the second row, the second row has n/2 connections to the second row... etc...

Hence, I calculated the maximum number of edges in a bipartite graph with n vertices to be (n^2/4).

2) [Paraphrased] Is it possible to take a cut, that is not necessarily the minimum s-t cut in a graph with directed flows (Fordâ€“Fulkerson algorithm) such that the flow capacity is greater than the s-t cut capacity?

I put down false, but I don't understand the question... Is it possible to take an s-t cut such that the flow capacity is greater? I know the weak duality theorem and 'max flow = min cut' so I put down false, but I have no idea.

Short answer question:

1) Explain an efficient way to test weather a graph is connected.

I suggested doing a breadth first search and if there were nodes that were not found by the BFS algorithm in the graph, then it was not connected. I wrote down the running time was O(m+n) hence it was an efficient algorithm to use. It was worth two marks and it was the final question but I'm now worried it was a trick question.

2) In the graph:

List the sets of vertices which demonstrate minimum vertex cover [paraphrased]

My answer was {A, D}, {A, E}, {B, C}, {B, D}, {C, E}, but now I'm worried it was just {A}, {B}, {C}, {D}, {E}...

Thanks for taking the time to read! :)