# How to calculate gravitation center of a planar distribution?

I have a 2D distribution of a data set, and I would like to find its gravitation center of these points.

What I would like to do is like the code below,

``````#include <stdio.h>

#define SIZE 4

struct point {
short x;
short y;
};

point find_gravitation(struct point set[], unsigned char size)
{
point ret;
.
.
.
?
.
.
.
return ret;
}

int
main(int argc, char **argv)
{
struct point dataset[SIZE];
struct point ret;

dataset[0].x = 12;
dataset[0].y = 24;

dataset[1].x = 3;
dataset[1].y = 5;

dataset[2].x = 71;
dataset[2].y = -6;

dataset[3].x = -185;
dataset[3].y = -26;

ret = find_gravitation(dataset, SIZE);

printf("gravitation center is: %d, %d\n", ret.x, ret.y);

return 0;
}
``````

How can I calculate the gravitation center of this set?

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If I am interpreting this correctly:

Because your points are unweighted, the center point would be: (avg(x), avg(y)).

To calculate the average x point, add all x values and divide by the number of points. To calculate the average y point, add all y values and divide by the number of points.

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To find the gravitation center, you need the weight as well. assuming weight to be set[i].w, your function must be modified to return the point structure with x=average of all set[i].x, y=average of all set[i].y and w=sum of all set[i].w.

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