Two skydivers of different masses jump from a plane. In three to five sentences, explain how their falls compare, including the effects of gravity, mass, and air resistance. bot
The falls of the two skydivers would be influenced by their different masses. According to Newton's second law of motion, acceleration is directly proportional to force and inversely proportional to mass. This means that the skydiver with the greater mass would experience a smaller acceleration due to gravity compared to the lighter skydiver. However, both skydivers would ultimately reach the same terminal velocity, where the force of air resistance would equal the force of gravity acting on them. Therefore, despite their different masses, both skydivers would fall at the same speed once they reach terminal velocity.
rephrase
The falls of the two skydivers would be impacted by their varying masses. Newton's second law of motion states that acceleration is directly related to force and inversely related to mass. As a result, the skydiver with the greater mass would experience a lesser acceleration due to gravity than the lighter skydiver. However, both individuals would eventually reach the same terminal velocity, at which point the force of air resistance would balance out the force of gravity acting on them. Consequently, despite their differing masses, both skydivers would fall at the same speed once they reach terminal velocity.
