Tracking a Space Ship: Will an Asteroid Hit the Target?

mjbourquin
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This problem is a sample flight path of a ship in space.
Its path is described by the line r(t) = (-1+t)i + (2-t)j
An asteroid has the starting point (0, 5, -1) and a heading vector of 2i + j + 3k
Ship
x = -1 + t
j = 2 -t
z = 0

asteroid

x = 0 + 2t
y = 5 + t
z = -1 + 3t

The question is will the asteroid hit the ship and if not how close will they come.
 
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I don't even know how to start. A hint in my homework states that if two lines do not intersect, they can be embedded in parallel planes but I don't know how that helps me find how close two lines come to each other. If they do intersect I would plug both lines into an r(t) and set them equal. Then find t. Is that right.
 
Hint: What is the distance between the ship and asteroid at time t? What is the minimum of this distance?
 
oh, I forgot all about optimization derivatives. Much easier. Thanks.
 
Thread 'Use greedy vertex coloring algorithm to prove the upper bound of χ'

Thread 'Use greedy vertex coloring algorithm to prove the upper bound of χ'

Hi! I am struggling with the exercise I mentioned under "Homework statement". The exercise is about a specific "greedy vertex coloring algorithm". One definition (which matches what my book uses) can be found here: https://people.cs.uchicago.edu/~laci/HANDOUTS/greedycoloring.pdf Here is also a screenshot of the relevant parts of the linked PDF, i.e. the def. of the algorithm: Sadly I don't have much to show as far as a solution attempt goes, as I am stuck on how to proceed. I thought...
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