What is the weight of an astronaut before lift off in kilograms?

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Homework Help Overview

The discussion revolves around the concept of weight in relation to mass, specifically in the context of an astronaut's weight before lift-off and at a height above the Earth's surface. The subject area includes physics principles related to motion and gravitational forces.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the relationship between mass and weight, with some attempting to clarify the definitions and units involved. Questions are raised about the correct interpretation of weight versus mass.

Discussion Status

There is an ongoing exploration of definitions and concepts, with participants providing insights into the distinction between mass and weight. Some guidance has been offered regarding the definitions, but no consensus has been reached on the specific answers to the questions posed.

Contextual Notes

Participants are navigating the definitions of weight and mass, with emphasis on the importance of understanding the gravitational context in which these terms are used. The original poster expresses difficulty with mathematical aspects, which may influence the discussion.

Destiny153
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Homework Statement


so in my physics class, we are learning about the 3 laws of motion and all that jazz bla bla bla, i get all that stuff, just not the stuff where it comes to math. i suck at math! so we had homework, no duh, and well I am stuck, can i please have some help! anyone??

hear is the problem:

An astronaut has a mass of 50 kg.

A.) how much does she weigh before lift off?
B.) when her space vehicle is 6400 Km. above the Earth's suface, she will weigh one quarter of what she weighed on earth. what does she weigh at this point?


Homework Equations


so there you are, ps i know this formula but i don't understand it. Fnet = ma

net force= mass times acceleration? righ?




The Attempt at a Solution



for (A.) i think that it is 50kg, because Weight is proportional to mass; equal masses at the same location in a gravitational field will have equal weights
 
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Destiny153 said:
for (A.) i think that it is 50kg, because Weight is proportional to mass; equal masses at the same location in a gravitational field will have equal weights
Proportional is not equal.

What's the definition of weight you learned in your course?
 
Weight: the force of gravity on the object and may be defined as the mass times the acceleration of gravity, w = mg
 
So, what's the answer to (A) ? Kilograms is a unit of mass, not weight.
 

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