Is Buoyancy Different on Other Planets Due to Changes in Gravity?

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Discussion Overview

The discussion revolves around the effects of varying gravitational forces on buoyancy, particularly in the context of different planets. Participants explore how changes in gravity might influence the buoyancy force experienced by objects in fluids, referencing a question from a grade 8 science textbook.

Discussion Character

  • Homework-related
  • Conceptual clarification
  • Technical explanation

Main Points Raised

  • One participant suggests that buoyancy force would increase with increased gravity, questioning if it is proportional to the weight of an object.
  • Another participant provides the buoyancy force equation, prompting discussion on how the variables change in different gravitational scenarios.
  • It is noted that the acceleration due to gravity (g) is a key factor in determining buoyancy, with a stronger gravitational field leading to greater buoyancy.
  • There is a reminder about the etiquette of posting homework questions and the importance of encouraging critical thinking rather than providing direct answers.

Areas of Agreement / Disagreement

Participants generally agree that buoyancy is affected by changes in gravity, but there is no consensus on the proportionality of this effect or the implications for different planetary environments.

Contextual Notes

The discussion does not resolve the specifics of how buoyancy changes with gravity, leaving open questions about the relationship between buoyancy force and object weight in varying gravitational fields.

JLIYING
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I'm looking at a question in a grade 8 science textbook.

It asks what would happen to the buoyancy force if gravity was increased or decreased. I.e. is buoyancy different on other planets?

Since the buoyancy force is a factor of pressure differentials due to the weight of the fluid, therefore I believe the buoyancy force would increase if gravity increased. But is it proportional to the increase in the weight of an object?
 
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The equation for buoyancy force is:

<br /> F_{B} = \rho \, g \, V<br />

where \rho -- density of the liquid,
g-- acceleration due to gravity, and
V-- volume of the displaced liquid.

Which one of these changes in your situation and how does F_{B} depend on it?
 
Dickfore said:
The equation for buoyancy force is:

<br /> F_{B} = \rho \, g \, V<br />

where \rho -- density of the liquid,
g-- acceleration due to gravity, and
V-- volume of the displaced liquid.

Which one of these changes in your situation and how does F_{B} depend on it?

g does! Thus the buoyancy is indeed greater in a stronger gravitational field.
 
GRDixon said:
g does! Thus the buoyancy is indeed greater in a stronger gravitational field.

I think the POINT of dickfore's post was to get jliying to THINK rather than just give him the answer as you did.
 
Aye, homework and related questions have special rules when posting and when answering. In the future just remember to post your homework questions in the homework forums, and for those that answered remember that we cannot just give people answers. (While this specific question MIGHT not be homework in itself, it is from a schoolbook)
 
phinds said:
I think the POINT of dickfore's post was to get jliying to THINK rather than just give him the answer as you did.

You're right of course. Shame on me. I realized how dumb my answer was about 5 seconds after hitting the Submit button.
 

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