Some Ideas For A Perpetual-Motion Track
First Image below
- Shows how this perpetual-motion-track should function, relying on momentum and gravity, and seeing if any energy can be gained via weighted or springed platforms
Second Image below
- Would the slight alteration in number ( 2 )-Version ( altered version of number ( 1 )-Version ), enable the ball to get over the end of that track ?
Third Image
- In Number ( 3 )-Version, the ball falls down and it's momentum and weight press down on a platform to lift up a weight heavier than the ball, then the weight falls back down and 'maybe' the platform adds further kinetic-energy( momentum, speed ) to the ball, allowing the ball to get over the end of that track
- In Number ( 3 )-Version, the ball falls down and it's momentum and weight press down on a springed platform, so 'maybe' the platform adds further kinetic-energy( momentum, speed ) to the ball, allowing the ball to get over the end of that track
Fourth Image
- Shows a ball covered in magnets, which should hopefully eliminate / or minimize friction on a track covered with something diamagnetic like graphite or bismuth, or, with copper
Quote from: postingsite on May 28, 2019, 11:17:03 PM
Third Image
- In Number ( 3 )-Version, the ball falls down and it's momentum and weight press down on a platform to lift up a weight heavier than the ball, then the weight falls back down and 'maybe' the platform adds further kinetic-energy( momentum, speed ) to the ball, allowing the ball to get over the end of that track
- In Number ( 3 )-Version, the ball falls down and it's momentum and weight press down on a springed platform, so 'maybe' the platform adds further kinetic-energy( momentum, speed ) to the ball, allowing the ball to get over the end of that track
I made an error in the image descriptions, it should have been -
Third Image
- In Number ( 3 )-Version, the ball falls down and it's momentum and weight press down on a platform to lift up a weight heavier than the ball, then the weight falls back down and 'maybe' the platform adds further kinetic-energy( momentum, speed ) to the ball, allowing the ball to get over the end of that track
- In Number ( 4 )-Version, the ball falls down and it's momentum and weight press down on a springed platform, so 'maybe' the platform adds further kinetic-energy( momentum, speed ) to the ball, allowing the ball to get over the end of that track