depends how big the ball is >.>
outside:cut the red one with the green string then cut the green one with the blue string next you cut the red string on the pipe then cut the orange ball with the green string then you cut the blue string on the pipe then cut the red ball with the yellow string inside:i have no idea.
Only if it happens to be a 2 foot long piece of string.
13
Too long.. And person who wrote this DAMN u must be bored!!! but i guess i am 2 soo Meh
A long string on numbers (integers).A long string on numbers (integers).A long string on numbers (integers).A long string on numbers (integers).
As many as you want it is just like saying how long is peice of string as long as you want
inertia
Think of swinging a ball around and around on the end of a string. The ball will stay straight out at the end of the string. The ball stays suspended at the end of the string because the moving ball wants to go straight but it can't because the string is holding it -- keeping it from flying away. The force the string is exerting on the ball is called centripetal force.Moons rotate around their planets just as the ball swings around on the string. The planet's gravity acts as the string, holding the moon from flying off into space.
The collective noun for string is a ball of string.
The tension in the string, which prevents the ball continuing forward in a straight line.
1. take some string and wrap it once around the ping pong ball, make sure the string goes around the middle of the ball. pinch or mark the string where it touches the beginning of the string 2. now measure how long that segment of string is, this gives you the circumference of the ping pong ball 3. the formula to get the diameter if you know the circumference is circumference / pi = diameter so divide the length of the string by 3.14 and you have your diameter. Easy as pie (ha ha)
Just one ball, one very big ball, it would need to be at least 381,216 kilometers long.
Zume ball
its a string with a ball on the end
ball in a cup
No. The force keeping a ball on a string moving in a circle is centripetal force, i.e. force pulling the ball to the center of the circle.
1/4