Answer :
Apparent Weight = Mass × Acceleration due to gravity
Given: Mass of the astronaut (m) = 94 kg
Acceleration (a) = 29.0 m/s²
Using the formula, we can calculate the apparent weight:
Apparent Weight = 94 kg × 29.0 m/s² = 2,726 kg·m/s²
Therefore, the apparent weight of the 94-kg astronaut aboard the rocket is 2,726 kg·m/s².
Apparent refers to something that appears or seems to be a certain way, but may not necessarily be the true or underlying reality. It is a subjective perception or observation that can be influenced by various factors. In the context of physics, apparent weight refers to the perceived weight of an object or person in a specific situation or environment, taking into account factors such as acceleration, gravity, and external forces. The apparent weight may differ from the actual weight due to these factors. Similarly, in other contexts, the term "apparent" can be used to describe the perceived or observed characteristics of something, which may not always align with its true nature.
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Final answer:
The apparent weight of the 94-kg astronaut aboard the rocket is 2,726 N.
Explanation:
To calculate the apparent weight of the astronaut aboard the rocket, we can use the formula:
Apparent weight = mass × acceleration due to gravity
Since the acceleration of the rocket is given as 29.0 m/s², the apparent weight can be calculated as:
Apparent weight = 94 kg × 29.0 m/s² = 2,726 N
