How Do You Calculate an Astronaut's Weight Ratio from Moon to Earth?

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Homework Help Overview

The discussion revolves around calculating the weight ratio of an astronaut on the Moon compared to their weight on Earth, given specific ratios of the masses and radii of the Moon and Earth. The subject area includes gravitational forces and ratios in physics.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants discuss the setup of equations for gravitational force to express the astronaut's weight on both the Moon and Earth. There is confusion regarding how to incorporate the provided ratios of mass and radius into these equations. Some participants attempt to clarify the relationship between the forces and the required ratio.

Discussion Status

The discussion is ongoing, with participants exploring different ways to express the weight ratio. Some guidance has been offered regarding the formulation of the equations, but there remains uncertainty about how to effectively use the ratios provided in the problem.

Contextual Notes

Participants are working with given ratios for the mass and radius of the Moon compared to the Earth, which are central to solving the problem. There is a noted lack of clarity on how these ratios should be applied in the context of the equations for weight.

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Homework Statement


Suppose that the ratio of the Moon's mass to the Earth's mass is given by 1.200E-2 and that the ratio of the Moon's radius to the Earth's radius is given by 2.740E-1. Calculate the ratio of an astronaut's Moon-weight to Earth-weight.


Homework Equations


Wmoon = mg
Wearth = mg

gmoon=
gearth= 9.81m/s^2

g= Gm/r^2


The Attempt at a Solution


Okay this seems like a very simple problem but the fact that they are giving me ratios in the problem for the mass and radius I am confused as to how to go about solving this.
 
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You are on the right track. Write the force equations for the astronaut's weight for the Earth and the Moon, using subscripts to keep the mass of the Earth and moon identified, as well as the mass of the astronaut and the radii of the Earth and the moon. Once you have those two equations written out with the subscripts keeping everything straight, you will see how to use the ratios to help you get the answer.

Here, I'll help with the equation for the weight force of the astronaut on the Earth:

[tex]F_e = \frac{G m_e m_a}{{r_e}^2}[/tex]
 
Hmm...I am not seeing it...
Fe = GMeMa/Re^2
Fm = GMmMa/Rm^2
Do I have it set up right?
 
I don't understand how to incorporate the ratios?
 
BuBbLeS01 said:
I don't understand how to incorporate the ratios?

You are asked for the ratio of the astronaut's weight on the Moon compared to that on the Earth. What would that ratio be in terms of Fe and Fm? What would your expression on the right-hand side reduce to? Do you have the data required to calculate that value?
 
F=Gm1m2/r^2
 
BuBbLeS01 said:
F=Gm1m2/r^2

Well, yes... but you already wrote down forces Fe and Fm. What are those? How do they relate to weights? What ratio do you need to work out?
 
The important thing here is to note that the question is very specifically asking for the ratio of an astronaut's Moon-weight to Earth-weight.
...RATIO.

So the left-hand side should be a ratio, more specifically [tex]\frac{w_{moon}}{w_Earth}}[/tex]

Now rewrite the everything in terms of the Moon...that is
1 Earth radius=k*moon radius and so on...

Then make proper substitutions.

Casey
 

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