A student collects data during an investigation about inertia and acceleration. If the force acting on the objects is constant, which statement about inertia and acceleration is supported by the data? (1 point) Responses An object with a higher mass has more inertia which causes it to speed up less quickly. An object with a higher mass has more inertia which causes it to speed up less quickly. An object with a higher mass has less inertia which causes it to speed up more quickly. An object with a higher mass has less inertia which causes it to speed up more quickly. An object with less mass has less inertia which causes it to speed up less quickly. An object with less mass has less inertia which causes it to speed up less quickly. An object with less mass has more inertia which causes it to speed up more quickly.

Question

A student collects data during an investigation about inertia and acceleration. If the force acting on the objects is constant, which statement about inertia and acceleration is supported by the data? (1 point) Responses An object with a higher mass has more inertia which causes it to speed up less quickly. An object with a higher mass has more inertia which causes it to speed up less quickly. An object with a higher mass has less inertia which causes it to speed up more quickly. An object with a higher mass has less inertia which causes it to speed up more quickly. An object with less mass has less inertia which causes it to speed up less quickly. An object with less mass has less inertia which causes it to speed up less quickly. An object with less mass has more inertia which causes it to speed up more quickly.

Answer 1

An object with a higher mass has more inertia which causes it to speed up less quickly.

Answer 2

The correct statement supported by the data is: An object with a higher mass has more inertia which causes it to speed up less quickly.

Answer 3

To determine the relationship between inertia, mass, and acceleration, the student collects data during an investigation with a constant force acting on the objects.

To analyze the data, the student needs to understand the concepts of inertia and acceleration. Inertia refers to an object's resistance to a change in its motion, while acceleration refers to the rate at which an object changes its velocity.

Based on this understanding, the correct statement supported by the data is: "An object with a higher mass has more inertia which causes it to speed up less quickly."

This statement aligns with Newton's second law of motion, which states that the acceleration of an object is inversely proportional to its mass when an external force is applied. In other words, objects with higher mass have more inertia and are more resistant to changes in their motion, resulting in slower acceleration when the same force is applied.

To confirm this statement using the data, the student would need to examine how the acceleration varied based on the mass of the objects. By comparing the acceleration of different masses under the same constant force, it should show that objects with higher mass exhibit less acceleration and thus support the statement.