Do determine a circle, you would need at least three coordinates. How many are necessary to determine a sphere?
How many coordinates are necessary to determine a sphere?
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0I know that, so the intersection of two of those bisections is a line, and the intersection of that line with the third bisection leaves a point, right? – 2012-11-04
3 Answers
I believe the answer is 4 (and hopefully someone will correct me if I'm wrong...). Here's why. Any 3 points are coplanar. Consider 3 points on the plane A, B, and C. One can connect each pair of points with a line segment to create a triangle, then circumscribe a circle. The center of said circle is equidistant to all 3 points. Consider a line passing through the center perpendicular to this plane. It is easy to prove that any point on this line is also equidistant from A, B, and C. Therefore, it must take more than 3 points to determine a sphere.
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0@JoshuaBenabou The answer is corrected. I had meant for the line to pass through the center (my reason for mentioning it) and inadvertently left it out. Drawing in segments from A, B, and C to the center and any point P on the line results in 3 congruent right triangles: each share the leg from P to the center perpendicular to 3 radii of the circle. Therefore, the hypoteneuses, the line segments PA, PB, and PC, all have the same length. So any point on the line can be the center of a sphere containing A,B, and C. – 2015-07-17
1st Approach:
The first thought you would have is that 3 points are sufficient to describe a circle and after rotating the circle about its diameter, you would get a sphere. But this is the special case when the circle you choose is itself an equator of the sphere and the center of the 'Circle' is also the center of the 'Sphere'.
However if the circle is different than the equator, in that case you need to know the location of the center of sphere to fully define it, along with the three points to define the circle.
So,
4 points(sphere) = 3 points(circle) + 1 point(center of sphere)
2nd Approach:
Equation of sphere:
$(x-a)^2 + (x-b)^2 + (x-c)^2 = R^2 $ You have 4 variables: $a,b,c,R$.
So you need 4 equations(4 points) to determine a sphere.
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1in other words, the sphere has $4$ degrees of freedom : 3 for the center, $1$ for the radius. But that for the radius is actually relevant to its square, thus limited to non-negative values, unless considering complex extension ... – 2018-10-04
A nice explanation for 4. 3 gives you a circle. But you need one more to determine the size of the circle compared to the sphere.