1 of 3: Force of Gravity and Acceleration. Help

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Homework Help Overview

The discussion revolves around calculating the magnitude of acceleration due to the Sun's gravity when adrift in the solar system, specifically at the same distance from the Sun as Earth. The subject area includes gravitational forces and acceleration concepts.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster expresses confusion about how to find the acceleration and questions the relevance of their mass in the calculation. Some participants suggest using Newton's law of gravitation and relate it to the force and acceleration equations. There is a discussion about the cancellation of mass in the equations.

Discussion Status

Participants are exploring the relationship between gravitational force and acceleration, with some guidance provided on the relevance of mass in the calculations. Multiple interpretations regarding the necessity of mass in the context of the problem are being discussed.

Contextual Notes

The problem does not specify the mass of the individual, leading to questions about its necessity in the calculations. There is also a lack of clarity regarding the velocity needed for the centripetal acceleration aspect.

Idioticsmartie
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Homework Statement


a) You are adrift in the solar system with no planet nearby and you are out at the same distance from the Sun as the Earth. What is the magnitude of acceleration due to the Sun's gravity you experience?


Homework Equations


Earth-Sun distance = 1.50 x 10^{11}
M_{sun} = 2.00 x 10^{30} kg
R_{sun} = 6.96 x 10^{8}
a = v^{2}/r

The Attempt at a Solution



Honestly, I'm pretty lost at the moment as to how to find the magnitude of acceleration. Does it matter that they don't specify what "your" mass is? A nudge in the right direction would be wonderful - I could probably figure it out from there. I don't want someone to do the problem for me, because I'd like to be able to figure it out on my own.

And I think that F = ma has something to do with this and centripetal acceleration, obviously, but I'm not sure how you find out what the velocity is. Help, please?
 
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There's no rotation mentioned here. The law you want is Newton's law of gravitation. F=GmM/r^2. Use F=ma to go from force to acceleration.
 
So,

F = ma

ma = (GmM)/r^2

Is this correct?

Andn what mass do I put in for myself?
 
Yeah, that's right. Your mass is the little m, which will cancel in your equation above, so you don't need a value for it.
 
Do you need a mass for yourself? There's m on the left and right...
 

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