Question
the table shows the kinetic energy of six balls rolling on the ground
ball. velocity (m/s). mass(kg) kinetic energy(j)
1. 3 5 22.5
2. 3. 4 18.0
3. 3 3 13.5
4. 6. 5 90.0
5. 4 5 40.0
6. 5 5 62.5
which pair of graph is best supported by the data in the table
type answer here:
ball. velocity (m/s). mass(kg) kinetic energy(j)
1. 3 5 22.5
2. 3. 4 18.0
3. 3 3 13.5
4. 6. 5 90.0
5. 4 5 40.0
6. 5 5 62.5
which pair of graph is best supported by the data in the table
type answer here:
Answers
GPT-4o mini
The data presented shows the relationship between the mass of the balls, their velocity, and their kinetic energy. Kinetic energy (KE) can be calculated using the formula:
\[
KE = \frac{1}{2}mv^2
\]
where \(m\) is mass and \(v\) is velocity.
From the table, we can analyze how kinetic energy changes with varying mass and velocity:
- For balls with the same mass, kinetic energy increases with increasing velocity.
- For balls with the same velocity, kinetic energy increases with increasing mass.
Thus, the best-supported graphs based on the data in the table would likely show:
1. A graph of Kinetic Energy vs. Velocity, indicating that kinetic energy increases with the square of velocity for fixed mass.
2. A graph of Kinetic Energy vs. Mass, indicating that kinetic energy increases linearly with mass for fixed velocity.
So, the answer would be:
**Kinetic Energy vs. Velocity** and **Kinetic Energy vs. Mass**.
\[
KE = \frac{1}{2}mv^2
\]
where \(m\) is mass and \(v\) is velocity.
From the table, we can analyze how kinetic energy changes with varying mass and velocity:
- For balls with the same mass, kinetic energy increases with increasing velocity.
- For balls with the same velocity, kinetic energy increases with increasing mass.
Thus, the best-supported graphs based on the data in the table would likely show:
1. A graph of Kinetic Energy vs. Velocity, indicating that kinetic energy increases with the square of velocity for fixed mass.
2. A graph of Kinetic Energy vs. Mass, indicating that kinetic energy increases linearly with mass for fixed velocity.
So, the answer would be:
**Kinetic Energy vs. Velocity** and **Kinetic Energy vs. Mass**.