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I'm trying to prepare for my midterm and I was going over some problems out of my algorithm book but can't seem to figure out the following problem:

Find necessary and sufficient conditions on the reals a and b under which the linear program

max: x+y
ax + by <=1
x, y =>0

(a) is infeasible. (b) is unbounded. (c) has a finite and unique optimal solution.

here is what I've come up with: for (a), we can add another constraint: ax+by=>5

I'm not sure what to do about b and c.I'm not sure If I'm allowed to change the constraints I'm already given or add new ones.

Any help will be appreciated. Thanks so much advance.

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This problem sounds to me like you are allowed to choose a and b, but may not add or otherwise modify any constraints of the program. Except the part about "necessary and sufficient" means you need to describe a way to determine which of the three cases (if any) applies no matter what a and b you're given. – aschepler Nov 15 '10 at 22:24
Just curious: is that a "linear program" or a "linear programming model"? You know correct nomenclature is key in this field. – R. Martinho Fernandes Nov 15 '10 at 22:25
Should be linear programming model but that's how it is written in my book. – sap Nov 15 '10 at 22:27

a) I'm not sure if this is possible unless you add a constraint just like you did.
b) if a and b are both less than or equal to zero your problem will be unbounded
c) if a and b are both larger than zero, and they are not equal to each other you will have a unique optimal solution

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More precisely: (a) is never possible without additional constraint, since (0, 0) is always feasible. (b) the problem is unbounded if and only if either a<=0 or b<=0 (whatever the value of the second coefficient is) – Nicolas Grebille Oct 24 '14 at 19:32

For part (a): it is infeasible when either a=0 and b<0 OR a<0 and b=0

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I'll leave it as an exercise to @sap to figure out why this answer is wrong. – raoulcousins Mar 25 '13 at 4:35

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