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What else can I help you with?
How do you start an elastic ball?
grab a bunch of rubber bands and put a rubber band over your fist which has the rubber bands and make it tight to where is isn't going anywhere and keep on putting rubber bands around if you can't do it then look up a youtube video...
What happens if a cat eats a rubber band?
Nothing. The rubber band will be passed in the next couple of days.
In Freak the Mighty what do they need to be able to play with the mechanical bird again?
when did kicker see freak again
Why did William H Spencer create the rubber band?
He didn't ! According to Wikipedia - '...The rubber band was patented in England on March 17, 1845 by Stephen Perry....' Incidentally, a search on Wikipedia for the name 'Willam H Spencer' produced no results. See the related link for the full article.
Why left arm has pressure as if rubber band has been left on?
A vein or lymph duct is malfunctioning. See a doctor before this gets any more serious.
Who said See the ball hit the ball?
See the ball hit the ball
Does a 2003 Eton 50 have a rev limiter?
yes it does. If you take off the front grille you will see a black box(rectangualr in shape) held in place by a rubber band. Take the band off and you will see a green wire. Cut the wire and it will not be limited anymore, will run much better.
What is rock band the who biggest hit?
In the US, "I can see for Miles" was their ONLY top 10 hit, peaking at number 9 in October, 1967. But their biggest hit overall was probably "Who Are You," not anywhere near their best song.
How do you make a tennis ball?
you one layer of rubber surrounding a hollow center.then you put a thin layer of adhesive oon the rubber and cover it with a layer of felt(usually yellow).the letters that you may see on the felt are black in black ink.
Would a solid rubber ball drop faster than a solid steel ball?
The simple answer is no. If you look at the equation of motion for a falling object, you can see that it doesn't depend on the weight of the objest. All objects fall with the same acceleration regardless of their size or shape.Keep in mind though that this neglects air friction. If you consider air friction, then the steel ball would fall faster since it is denser. In other words, the lighter rubber ball would get slowed down by the air more. This is unlikely to have much effect if you drop the two balls a small distance; however, if you dropped them out of an airplane the steel ball would likely land much sooner than the rubber ball.
What do you do if one of your brackets comes off the tooth but it is still on the wire?
Brackets are usually attached to the wire by a very short rubber band. Cut the rubber band and save the bracket. So see the Orthodontist to put it back. If you have orthodontic wax, put it on top of any loose brackets about to fall off. This will keep the brackets in place until they can be properly replaced.
Will a ball of glass bounce higher then a ball of rubber?
Yes it will. Although both balls will have the same amount of energy when they hit the ground, energy is spent trying to reform the rubber ball. The glass ball does not get deformed on contact and so it has more energy to bounce higher.The resonance of glass is higher and creates more energy from the normal force pushing back up on the glass from the ground. This also has to do with the fact that a crack in glass travels hundreds of miles per hour. See Justinsearch below for other crazy facts.I have serious doubts concerning the above. The only way a glass ball will bounce is if it falls upon a surface with some degree of elasticity. It would be the elasticity of the surface that would then propel the ball upwards. A glass ball falling any appreciable distance onto a solid granite slab will shatter, not bounce. The shatter is the result of the energy the above contributor says will make the ball bounce higher. Possibly, a ball made of extremely strong tempered glass may not shatter, depending on several factors. In such a case, the energy upon impact would crack the surface, or be absorbed by the ball and surface in the form of heat; some would be converted into noise. The reforming of the rubber ball is the very thing that propels the rubber ball upwards. If a ball were perfectly elastic, it would absorb a certain amount of energy on impact, and then it would expend all of that energy in the process of 'reforming'. A perfectly elastic ball would do this indefinitely, if you could eliminate all possible transfers of energy in the form of friction and other exotic effects. What we observe in the real world is that a rubber ball will bounce less high at each bounce because of the inevitable absorption of energy as it continues. When the ball comes to rest, it will have expended the same amount of energy that it had in potential form at the moment it was dropped. This would include some degree of heat that the ball inevitably absorbs. The energy in the glass ball is expended in the process of shattering the ball, and/or noise, heat, cracking of the surface, etc.Above are some very true points. The idea is easier to see for most when you think of a glass ball of small proportions. A small glass ball will bounce higher than a small rubber ball, and if small enough it would not crack even on a granite slab from a great height. If the ball is to be larger and heavier yes it would need to be of a "extremely strong tempered glass". "The reforming of the rubber ball is the thing that propels the rubber ball upwards" yes exactly, from the normal force of the ground. However the more reforming that is needed, the more energy is lost, for example a flat ball.
