Center of Gravity of a Hiker and Backpack

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Homework Help Overview

The problem involves calculating the center of gravity of a hiker and a backpack, with specific weights and heights provided for each. The hiker weighs 80 kg and the backpack weighs 20 kg, with their respective centers of gravity located at different heights above the ground.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the concept of center of gravity for two different masses and how it relates to their respective distances and weights. There are attempts to apply formulas related to balancing weights and center of mass calculations.

Discussion Status

Participants are actively engaging with the problem, exploring different formulas and attempting to apply them to the given scenario. Some guidance has been offered regarding the application of the center of mass formula, but there is still uncertainty about the calculations and interpretations of results.

Contextual Notes

There is mention of potential confusion regarding the application of different formulas for center of gravity, and participants are questioning the validity of their results, particularly regarding the small value obtained for the distance Y.

M_G
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Homework Statement



An 80 kg hiker carries a 20 kg pack. The center of gravity of the hiker is 1.1m above the ground when he is not wearing the pack. The center of gravity of the pack is 1.3m from the ground when it is worn. How far above the ground is the center of gravityof the hiker and the pack?

I don't know how to solve such a problem, how to begin?
Need help please...
 
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Welcome to PF!

Hi M_G! Welcome to PF! :smile:

What do you know about the centre of gravity of two different masses?
 
Hi,
If there is two weights on a weightless rod, the center of gravity will be at a distance X1 from W1 and X2 from W2, and the C.G will be closer to the heavier weight...right?
 
M_G said:
Hi,
If there is two weights on a weightless rod, the center of gravity will be at a distance X1 from W1 and X2 from W2, and the C.G will be closer to the heavier weight...right?

Right. And if you hold it at that point, it will balance. :smile:

But what's the formula, with W1 W2 X1 and X2, that tells you it will balance?
 
The formula is:
X=(x1*w1+x2*w2)/w

Where:
w=w1+w2
 
M_G said:
The formula is:
X=(x1*w1+x2*w2)/w

Where:
w=w1+w2

Actually, that's the slightly different formula, for x1 and x2 being the distances from a fixed point, and X being the distance of the centre of mass from the same point.

ok … now apply that formula to the problem …

what do you get? :smile:
 
sorry, I can't get what you're pointing at...
 
M_G said:
sorry, I can't get what you're pointing at...

The "balance" formula, that I originally asked about, is x1w1 = x2w2, where the w's are measured, in opposite directions, from the fulcrum.

The formula you gave is where they're measured, in the same direction, from a completely general point (like the ground :wink:).
 
got it,
by applying that formula to the problem:
x1=1.3
x2=1.1
X=1.1+Y (distance between the C.G & the person)
Right?
 
  • #10
M_G said:
X=1.1+Y (distance between the C.G & the person)
Right?

(sorry … been out all evening :biggrin:)

Yeeees … but what on Earth are you doing? That doesn't get you anywhere, it's just stating the obvious.

Use the formula (and use the 80 and the 20).
 
  • #11
Y+1.1 = (1.3*20+1.1*80)/20+80 ...?:rolleyes:

I had a bad feeling that I'm proceeding wrong, very very wrong, I don't know why I can't get it?!
 
Last edited:
  • #12
M_G said:
Y+1.1 = (1.3*20+1.1*80)/20+80 ...?:rolleyes:

That's it! :smile:

Are you happy now, with the general method for these centre of mass problems?
 
  • #13
Yes, I am:smile:...but, when I solved it for Y, I found Y=0.04m...?I think it is a very small number :rolleyes: isn't it??
 
  • #14
M_G said:
Yes, I am:smile:...but, when I solved it for Y, I found Y=0.04m...?I think it is a very small number :rolleyes: isn't it??

Well, it has to be very close to the centre of gravity of the hiker, and there's only 0.2m to play with anyway.

(and of course, the question asks for the height above the ground, which is 1.1 + 0.04)
 
  • #15
Thanks !
 
  • #16
Don't forget that the hiker will lean forward if i carries a backpack!
Sorry...
 

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