it would be easier to find something easier – to take and throw the ball. It is obvious that the range of the throw is by chance about its s, gravity, tnikiki, initial coVEC James O’Donoghue of the Japan Space Exploration Agency went further and calculated at his leisure how far a baseball thrown by the same person would fly on different planets of the solar system.
It turned out that on our nearest neighbor, the Moon, a thrown ball will rush along the trajectory, the top point with a deviation at a 60-meter height – which, by the way, is higher than the famous Leaning Tower of Pisa. It is not interesting that we represent the situation on Saturn. With a mass of almost 100 times more than the earth, the force of attraction there – oddly enough – is somewhat weaker.
On a forecast extended by the ice of Pluto (its diameter is 2/3 of the diameter of the Moon), with weak gravity, the ball will rise to the height of the highest Egyptian pyramid – 206 meters and fly 16 times farther than on its native Earth, in almost 50 seconds.
O’Donoghue displayed the results of his calculations in this video.
Source: Tech Cult
