Assuming that all strands are vertical/ parallel to gravity and equally spaced (on a radius) around the centre of gravity then tension on each strand will be equivalent to weight x 9.81 divided by 7 equals tension in Newtons.
If the strands are not normal and/or at varying distances from centre of gravity then it becomes a little more complicated. Summ of tension on strands must equal weight of bag. Tension on each strand is a ratio of it's distance from the COG of the furthest most strand. Don't forget the further from perpendicular a strand is the more tension on the strand.
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The force is tension.
Tension
tension
That is known as tension.
Tension
The force is tension.
100n
143
Tension
tension
Tension
That is known as tension.
Tension
36.6N and 25.9 N respectively.
strabismus
If the ropes are perfectly vertical AND both of them are indeed sharing the load, then the tension in each rope is 5N. But it would be practically impossible to have them exactly share the load, and one would wind up supporting most or all of it. The best way to make them share is to use elastic ropes, like bungees. They still would never share equally, but at least they would share. In any case, the tensions in both support strands would always add up to 10N.
False