A planet with mass m, and radius r .

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Homework Help Overview

The discussion revolves around calculating the acceleration due to gravity on the surface of a hypothetical planet, referred to as "Planet X," with a specified mass and radius. Participants are exploring the formula for gravitational acceleration and clarifying the parameters involved.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the formula for gravitational acceleration, questioning whether the mass of the planet in question or the mass of Earth should be used. There is an exploration of the implications of using different masses and the relevance of the planet's radius.

Discussion Status

The conversation has clarified some misunderstandings regarding the parameters needed for the calculation. Guidance has been offered regarding the correct mass to use in the context of the problem, and participants are actively engaging with the concepts involved.

Contextual Notes

There is a noted confusion about the relevance of Earth's mass in the context of the problem, as well as the need to focus on the properties of Planet X specifically. Participants are working within the constraints of the problem as posed, without additional information about other celestial bodies.

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A planet with mass m, and radius r...

what is the acceleration due to gravity on the surface of the planet?

a = Gm/r^2

correct?

I'm pretty sure I'm right, but I will sleep better if someone can confirm this :smile:

thanks
 
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Thats fine, just make sure m is the mass of the earth, not the object.
 
good thing i asked :)

so the mass of the planet (not earth) doesn't matter at all?
 
You were asking about the acceleration of an object in Earth's gravitational field, which is only dependent on the mass of the Earth and the object's distance from the earth.

What is this other planet you mention? There are no planets near the surface of the earth.. atleast that i know of
 
whozum said:
You were asking about the acceleration of an object in Earth's gravitational field, which is only dependent on the mass of the Earth and the object's distance from the earth.

What is this other planet you mention? There are no planets near the surface of the earth.. atleast that i know of


sorry, just want to make sure we're clear here. I think there might be a misunderstanding.

Lets call the planet: "Planet X"

I am given the mass and radius of Planet X. I want to find out the acceleration due to gravity on the surface of Planet X.


Now I thought I was supposed to use the mass of planet X, not earth, since Earth doesn't have anything to do with the question
 
Sorry, my misunderstanding. You are completely correct.
 
Put in a nutshell:

[tex]g = G\frac{M}{R^2}[/tex],

where g is the free fall acceleration at the surface of the planet,
M is the mass of the planet,
and R is the radius of the planet.
 

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