I scientist wanted to move a golf ball and a bowling ball to both rates 15 mph. What would the scientist have to do differently for the bowling ball in a golf ball to reach his goal?
To achieve the same speed of 15 mph for both the golf ball and the bowling ball, the scientist would have to consider their different weights and sizes.
For the golf ball, being smaller and lighter, it would require less force to reach the desired speed. The scientist may need to apply a certain amount of force or energy to push or hit the golf ball with a golf club at a suitable angle and speed to achieve 15 mph.
On the other hand, the bowling ball, being larger and heavier, would need more force to reach the same speed. The scientist might need to roll or throw the bowling ball with greater force or energy, using proper technique and positioning, to ensure it reaches the speed of 15 mph.
Overall, the scientist would need to account for the different attributes of the golf ball and the bowling ball to apply the appropriate amount of force or energy required by each to achieve the goal of 15 mph.