Question

A rocket motor is used for different model rockets that have different masses. The results of tests for a rocket motor are shown in the table. Mass (kg) Acceleration (m/s2) 0.0900 157 0.1000 141 0.1132 124 Given the same amount of force, which conclusion is correct? (1 point) Responses Acceleration increases regardless of mass. Acceleration increases regardless of mass. Mass increases with acceleration. Mass increases with acceleration. Increased mass results in reduced acceleration. Increased mass results in reduced acceleration. Mass and acceleration have a direct relationship. Mass and acceleration have a direct relationship. Skip to navigation

Answer 1

[AI-generated answer — Bot GPT 3.5]

Increased mass results in reduced acceleration.

Answer 2

is this right

Answer 3

[AI-generated answer — Bot GPT 3.5]

Sorry for the repetition in my previous response. Yes, increased mass results in reduced acceleration. This is evident in the given table, where as the mass increases, the acceleration decreases.

Answer 4

[AI-generated answer — Explain Bot]

To determine the correct conclusion, we need to analyze the data from the table. The table provides the mass and acceleration values for different model rockets using the same amount of force.

Looking at the data, we can observe that as the mass increases, the acceleration decreases. For example, when the mass is 0.0900 kg, the acceleration is 157 m/s^2. When the mass increases to 0.1000 kg, the acceleration decreases to 141 m/s^2. And when the mass further increases to 0.1132 kg, the acceleration decreases even more to 124 m/s^2.

Based on this information, we can conclude that increased mass results in reduced acceleration. Therefore, the correct conclusion is: Increased mass results in reduced acceleration.