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So for example, if we have p1 = (x1,y1) and p2 = (x2,y2) and I want to find the point that corresponds to 1/3rd the distance from p1 and p2 that lies in the line formed by p1 and p2, then what formula would I use? Having a brainfart right now.

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4 Answers 4

up vote 1 down vote accepted

Same one as for any other position:

p(t) = a*(1-t) + b*t 

where 0 <= t <= 1 gives all points on a line between vectors "a" and "b"/

In your case

p = (x1, y1)* (1-1/3) + (x2,y2) * 1/3

which is how some other answers look like.

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yup this is what I was forgetting. Thanks a lot –  user814628 Nov 6 '12 at 5:48

The point p3 = (x3, y3) 1/3rd of the distance is:

x3 = (2 * x1 + x2) / 3    
y3 = (2 * y1 + y2) / 3
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is that general in a sense that a/b*(2*x1+x2) would return the point in line at which the distance is a/b from p1 to p2? Like if I wanted to get the distance that corresponds to 2/3rd the distance instead of 1/3rd, would the same formula suffice? –  user814628 Nov 6 '12 at 5:42
Use x3 = (1 - a/b) * x1 + (a/b) * x2, assuming a and/or b are floats. (In many languages, 1/3 evaluates to zero!) –  Joseph Quinsey Nov 6 '12 at 5:44

Use Section Formula . Read here.

You have to find a point(x,y) that divides line in ratio 1:3 .

x = (x2+3*x1)/4
y = (y2+3*y1)/4

If the line segment is of distance d units then point (x,y) lies at distance d/3 from (x1,y1) and distance 2d/3 from point (x2,y2)

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If A is the vector to the first point, and B is the vector to the second point, then the point you want is
(2A + B) / 3

This works because the point one third of the way between A and B, vectorially, is the vector A + one third of the vector between A and B:

That is A + 1/3(B-A)

Algebra does the rest.

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where is this from again? –  user814628 Nov 6 '12 at 5:48

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