2. Qualitatively, what effect did your object's or system's mass have on its acceleration? Support your answer with data $$ \qquad $$ $$ \qquad $$ $$ \qquad $$

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UpStudy AI · Accepted Answer

To qualitatively analyze the effect of mass on acceleration, we can refer to Newton's second law of motion, which states that the force acting on an object is equal to the mass of the object multiplied by its acceleration. This relationship can be expressed mathematically as:

$$
F = m \cdot a
$$

Where:
- $$ F $$ is the net force applied to the object,
- $$ m $$ is the mass of the object,
- $$ a $$ is the acceleration of the object.

From this equation, we can derive the following insights:

1. **Direct Relationship**: If the force $$ F $$ is constant, an increase in mass $$ m $$ will result in a decrease in acceleration $$ a $$. This means that heavier objects will accelerate less than lighter objects when the same force is applied.

2. **Inverse Relationship**: Conversely, if the mass of the object decreases while the force remains constant, the acceleration will increase. This indicates that lighter objects will accelerate more than heavier objects under the same force.

### Supporting Data

To support this qualitative analysis, we can consider a hypothetical experiment where we apply a constant force to objects of different masses and measure their resulting accelerations. Here’s a sample dataset:

| Mass (kg) | Force (N) | Acceleration (m/s²) |
|-----------|-----------|----------------------|
| 1         | 10        | 10                   |
| 2         | 10        | 5                    |
| 3         | 10        | 3.33                 |
| 4         | 10        | 2.5                  |

From the data:
- For a mass of 1 kg, the acceleration is 10 m/s².
- For a mass of 2 kg, the acceleration drops to 5 m/s².
- For a mass of 3 kg, the acceleration further decreases to 3.33 m/s².
- For a mass of 4 kg, the acceleration is 2.5 m/s².

### Conclusion

This data clearly illustrates that as the mass of the object increases while the force remains constant, the acceleration decreases. Thus, we can conclude that the mass of an object has an inverse effect on its acceleration when a constant force is applied.
As mass increases, acceleration decreases when the same force is applied.

2. Qualitatively, what effect did your object's or system's mass have on its acceleration? Support your answer with data \( \qquad \) \( \qquad \) \( \qquad \)

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