Question
Question
As shown below, a student places a 500-gram car at point X on a wooden racetrack in an energy transformation investigation.
What outcome is most likely if the student uses a 700-gram car instead?
(1 point)
Responses
A 700-gram car would have less potential energy at point X and less kinetic energy at the bottom of the racetrack
A 700-gram car would have less potential energy at point X and less kinetic energy at the bottom of the racetrack
A 700-gram car would have more kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have more kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have less kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have less kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have more potential energy at point X and more kinetic energy at the bottom of the racetrack
A 700-gram car would have more potential energy at point X and more kinetic energy at the bottom of the racetrack
Skip to navigation
As shown below, a student places a 500-gram car at point X on a wooden racetrack in an energy transformation investigation.
What outcome is most likely if the student uses a 700-gram car instead?
(1 point)
Responses
A 700-gram car would have less potential energy at point X and less kinetic energy at the bottom of the racetrack
A 700-gram car would have less potential energy at point X and less kinetic energy at the bottom of the racetrack
A 700-gram car would have more kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have more kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have less kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have less kinetic energy at point X and less potential energy at the bottom of the racetrack
A 700-gram car would have more potential energy at point X and more kinetic energy at the bottom of the racetrack
A 700-gram car would have more potential energy at point X and more kinetic energy at the bottom of the racetrack
Skip to navigation
Answers
GPT-4o mini
To determine the most likely outcome if the student uses a 700-gram car instead of a 500-gram car, we need to consider how potential energy (PE) and kinetic energy (KE) are affected by mass.
1. **Potential Energy (PE)**: The potential energy at a certain height is given by the formula:
\[
PE = mgh
\]
where \(m\) is mass, \(g\) is the acceleration due to gravity, and \(h\) is height. Since the 700-gram car has a greater mass than the 500-gram car, assuming they are raised to the same height \(h\), the 700-gram car will have more potential energy at point X.
2. **Kinetic Energy (KE)**: The kinetic energy at the bottom of the racetrack will be equal to the potential energy at point X (in the absence of friction and air resistance) due to the conservation of energy. Therefore, a greater potential energy will result in greater kinetic energy at the bottom.
From this analysis, if a 700-gram car is placed at point X:
- It will have **more potential energy** than the 500-gram car.
- Consequently, it will also have **more kinetic energy** at the bottom of the racetrack.
Thus, the correct response would be:
**A 700-gram car would have more potential energy at point X and more kinetic energy at the bottom of the racetrack.**
1. **Potential Energy (PE)**: The potential energy at a certain height is given by the formula:
\[
PE = mgh
\]
where \(m\) is mass, \(g\) is the acceleration due to gravity, and \(h\) is height. Since the 700-gram car has a greater mass than the 500-gram car, assuming they are raised to the same height \(h\), the 700-gram car will have more potential energy at point X.
2. **Kinetic Energy (KE)**: The kinetic energy at the bottom of the racetrack will be equal to the potential energy at point X (in the absence of friction and air resistance) due to the conservation of energy. Therefore, a greater potential energy will result in greater kinetic energy at the bottom.
From this analysis, if a 700-gram car is placed at point X:
- It will have **more potential energy** than the 500-gram car.
- Consequently, it will also have **more kinetic energy** at the bottom of the racetrack.
Thus, the correct response would be:
**A 700-gram car would have more potential energy at point X and more kinetic energy at the bottom of the racetrack.**
Related Questions
As shown below, a student places a 500-gram car at point X on a wooden racetrack in an energy transf...
As shown below, a student places a 500-gram car at point X on a wooden racetrack in an energy transf...
As shown below, a student places a 500-gram car at point X on a wooden racetrack in an energy transf...