http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time All About Top Bowling Ball Thu, 14 Jul 2011 22:29:46 +0000 hourly 1 http://wordpress.org/?v=3.2.1 http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time#comment-2386 marinespill Thu, 22 Apr 2010 12:46:52 +0000 http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time/#comment-2386 They won't. The one fired from the cannon will have a little further to fall because of the curvature of the earth. They won’t. The one fired from the cannon will have a little further to fall because of the curvature of the earth.

]]> http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time#comment-2385 my_new_improved_id Thu, 22 Apr 2010 11:49:15 +0000 http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time/#comment-2385 Well how far are you dropping the ball in the free fall? Well how far are you dropping the ball in the free fall?

]]> http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time#comment-2384 kriegor191 Thu, 22 Apr 2010 11:24:49 +0000 http://top-bowlingball.com/prove-that-a-2-bowling-ball-with-equal-weight-of-5kg-will-reach-the-ground-at-the-same-time/#comment-2384 The "x" and "y" of that problem are irrelevant, the distance across has nothing to do with gravity unless the bowling ball is fired at an angle other than 180 (straight across) everything falls at 9.8m/s/s. As long as the bowling balls are dropped from the same height. As soon as the second bowling ball leaves the cannon it will be in free fall as well and as I stated everything no matter what mass falls at 9.8m/s/s. The “x” and “y” of that problem are irrelevant, the distance across has nothing to do with gravity unless the bowling ball is fired at an angle other than 180 (straight across) everything falls at 9.8m/s/s.
As long as the bowling balls are dropped from the same height. As soon as the second bowling ball leaves the cannon it will be in free fall as well and as I stated everything no matter what mass falls at 9.8m/s/s.

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