kinetic energy is transferred from a bowling ball table and pen causing the pet to fly away at a much higher speed in the bowling ball what does this tell you about the bowling pin
The bowling ball has a higher mass than the pin.
momentum = mv
C. The pin has a much lower mass than the ball
To understand what the transfer of kinetic energy from a bowling ball, table, and pen to the pet tells us about the bowling pin, let's break it down step by step:
1. Kinetic Energy Transfer: When the bowling ball, table, and pen transfer kinetic energy to the pet, it means that the pet gains motion or speed from these objects. This happens when these objects collide or interact with the pet.
2. Higher Speed Transfer: The question mentions that the pet flies away at a much higher speed than the bowling ball. This indicates that a significant amount of kinetic energy was transferred from the bowling ball (due to its larger mass and initial speed) to the pet, resulting in the pet's higher speed.
3. Implication for the Bowling Pin: From the given information, we cannot directly determine the implication for the bowling pin. However, we can infer that if the pet was able to gain a higher speed than the bowling ball, it suggests that the transfer of kinetic energy to the bowling pin would likely be less than the transfer to the pet. This implies that the bowling pin may experience a smaller change in speed compared to the pet.
In summary, based on the kinetic energy transfer described, the higher speed of the pet relative to the bowling ball indicates that the bowling pin is likely to experience a smaller change in speed compared to the pet.