Equation that represents the force?

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In summary, Daniel is an expert summarizer of content. He provides a summary of the conversation and then ends with a joke about his friend's syntax.
  • #1
danielschnarr
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hey , first time poster :)

Question is, what is the equation that represents the force of Buoyancy and Air Resistance.

I've had quite a hard time looking around on the internet for these and I need these to do a project (make up project).

Thanks kindly.

Daniel
 
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  • #2
Bouyancy force,a.k.a. Archimede's force can easily be constructed once you know his principle.

You can search the internet for Stokes force (viscous force) or drag/aerodynamical force...

Daniel.
 
  • #3
dextercioby said:
Archimede's
It's ARCHIMEDES. I'd prefer if people write down names in their original manner.

MARLON

ps in Greek, you can see his name here :
http://www.mcs.drexel.edu/~crorres/Archimedes/contents.html

History, dexter...hmmm
 
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  • #5
marlon said:
It's ARCHIMEDES. I'd prefer if people write down names in their original manner.

So do I.It was my original manner (sic!) to write down his name.

I think you wanted to type

[tex] \displaystyle{A P X I M H \Delta H \Sigma} [/tex]

,but you changed your mind... :rolleyes:



Daniel.
 
  • #6
dextercioby said:
So do I.It was my original manner (sic!) to write down his name.

I think you wanted to type

[tex] \displaystyle{A P X I M H \Delta H \Sigma} [/tex]

,but you changed your mind... :rolleyes:



Daniel.
Not at all, i added the site.

Besides here is another one :
http://www.mcs.drexel.edu/~crorres/Archimedes/Books/ArchimedesBooks.html

Study the history dexter, i am doing you a favour here.

marlon

edit : besides, i am glad to see you are learning the correct spelling already...Thanks for looking at that site. You see, it's not that bad to be corrected isn't it ? :rofl:
 
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  • #7
marlon and dextercioby: I have seen at least four threads where you guys are going at each other.

It's kind of funny, I can't tell if your good friends or arch enemies.
 
  • #8
Nah,i think we can't ignore each other (marlon,remember?).:tongue2:

History of Physics is my strength,amigo...

Daniel.
 
  • #9
it's entertaining :biggrin:

anyway I'll let you get back to the topic... sorry to interupt
 
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  • #10
dextercioby said:
History of Physics is my strength,amigo...

Daniel.

Surprise, surprise, i tend to disagree. ArchimedeS is quite improtant in the history of science, isn't he ?

I am also very much into classical music. You won't hear me talk about W A Mozar , though :rofl:

marlon
 
  • #11
Still kind of confused here...
 
  • #12
marlon said:
Surprise, surprise, i tend to disagree. ArchimedeS is quite improtant in the history of science, isn't he ?

I am also very much into classical music. You won't hear me talk about W A Mozar , though :rofl:

marlon

Surprise,surprise...Spelling and forces down an incline are not your among your favorite subjects,i guess...

Daniel.
 
  • #13
danielschnarr said:
Still kind of confused here...

Fred Garvin has given you reference to both subjects... :wink:

Daniel.
 
  • #14
dextercioby said:
Surprise,surprise...Spelling and forces down an incline are not your among your favorite subjects,i guess...

Daniel.

:rofl: :rofl: So is YOUR syntaxis YOUR dexter and your ability to correct false mistakes... :rofl: :rofl: ahh dexter, i think in the end, i am going to like you :rofl:

marlon
 

1. What is the equation for force?

The equation for force is F = ma, where F represents force, m represents mass, and a represents acceleration.

2. How is force measured?

Force is measured in Newtons (N) using a spring scale or a force meter.

3. What is the difference between mass and weight?

Mass is the amount of matter an object contains, while weight is the force of gravity acting on an object's mass. Mass is measured in kilograms (kg), while weight is measured in Newtons (N).

4. How does force affect an object's motion?

According to Newton's Second Law of Motion, the acceleration of an object is directly proportional to the net force acting on the object and inversely proportional to its mass. This means that the greater the force applied to an object, the greater its acceleration will be.

5. Can force be negative?

Yes, force can be negative if it acts in the opposite direction of the object's motion. This is often referred to as a "decelerating" force.

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