Center of mass of a rod question.

AI Thread Summary
A rod with a length of 24.5 cm has a linear density defined by the equation λ = 50.0 g/m + 20.5x g/m². To find the mass of the rod, an integral of the linear density over the length of the rod is required, which involves calculating the total mass from 0 to 0.245 m. The center of mass can then be determined using the formula Xcm = (1/M) Σ(mixi), where M is the total mass. Participants clarified the integration process and confirmed that the correct approach involves integrating the density function. The discussion emphasizes the importance of understanding the relationship between mass distribution and center of mass calculations.
hellomister
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Homework Statement



A rod of length 24.5 cm has linear density (mass-per-length) given by the following equation, where x is the distance from one end.

λ = 50.0 g/m + 20.5x g/m2

(a) What is its mass?

(b) How far from the x = 0 end is its center of mass?





Homework Equations



A. lambda=50.0 g/m +20.5x g/m2


The Attempt at a Solution



I have been having a tough time trying to figure out part A. I am pretty lost, at first i thought you could put in .245 into the equation of the linear density to find the density and then multiply that by .245 but i am positive that this is wrong.

I am not really good with the definition of center of mass
Xcm=1/M Sigma(i) mixi

if someone could also explain that it would be much appreciated.
 
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g/m2 ?
Looks like this unit should be g/m
 
I will presume that your density distribution with x would be 50 + 25x²

Since you have a formula for the distribution of the mass then your summation will look like an integral then won't it?

Hence you will have x*δm elements where δm at any x is given by 50 + 25x²

Looks like this suggests 50x + 25x³ integrated from 0 to .245 m.

Of course you also need to integrate the volume of the object to determine the overall mass for your 1/M.
 
Sorry, that should be 20.5 not 25 in the previous post. I misread it I see.

The idea is the same of course.
 
thanks, could you also help me with how i would go about getting part b?

I think you misread the question, i did what you suggested and took the integral of the equation of the equation from 0 to .245 m and got the correct answer. Thank you for your help again.
 
hellomister said:
thanks, could you also help me with how i would go about getting part b?

I think you misread the question, i did what you suggested and took the integral of the equation of the equation from 0 to .245 m and got the correct answer. Thank you for your help again.

Actually I provided the solution for b) already. You need the total mass from a) as I already outlined that you divide into the integral of the moment summations.
 
oh sorry, i misread. Thanks for the help! I was really confused thanks for clearing it up.
 

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