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Youngs modulus 2


Niha afzal

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Question for you : what is the same and what is different in each of the sections of the composite rod?

 

Why did you not add this to your previous thread question?

Please ask a mod to combine the two threads.

 

Edit for those who would like to see the original question

 

post-74263-0-12495900-1458945970_thumb.jpg

Edited by studiot
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Sorry but your originals are such a mess I don't know what I got right or wrong, but you posted the following yesterday

 

 

Thanku guys thanku so much. Yes stringjunky il make sure to rotate them next time. :)

 

If you can't get the page all in the other way round copy it out yourself so it fits your phone.

 

Now how about answering the question I asked, which is relevent to the question you posted in the other thread, and I reposted properly here.

Edited by studiot
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Youngs = stress / strain .. i think i have to calculate the stres and strain of plastic and nylon individually.

 

 

Now we are getting somewhere.

 

if the youngs moduli (note the plural) are different, how can the stress and strain both be the same?

 

Do you think the stress or the strain or both are different?

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studiot post 2

Now how about answering the question I asked, which is relevent to the question you posted in the other thread, and I reposted properly here.

 

 

I have only been talking about the question from your other post, which I see now is different from the original question in this thread.

 

I can only deal with one subject at a time.

Edited by studiot
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Lets just stick to other thread the one about which we were just talking .

 

So the strain changes but the stress doesnt change.....

 

In the case of the composite rod, pulled in tension at both ends, yes this is correct.

 

So can you now calculate the strain for both pieces and complete the question, including the max stress?

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You should have something like this

 

Let x = strain in grp section

 

Let y = strain in nylon section

 

Then (x + y)* 10-3 = 3 * 10-3, where x and y are in mm

 

Stress in grp = stress in nylon

 

Egrp * x * 10-3 = Enylon * y* 10-3

 

Egrp * x = Enylon * (3-x)

 

I'm sure you can finish the arithmetic.

Edited by studiot
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Yes I got it now. Thanku so much!!!!

Done with the arithmetic tooo got the ans ... :) now may I ask for one more favour .... I use my cellphone to take the pictures and I post them here .... initially the pictures are straight but whenever I add them here they automatically get rotated .. plus cant find any rotation key.... if u could help me solve this problem too ... thanks

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studiot

Let x = strain in grp section

 

Let y = strain in nylon section

 

First an apology.

These, of course, should have be x and y are the extensions, not the strain.

However the math was correct and this oversight obviously didn't bother you.

 

well done.

 

:)

 

Now for your second question.

 

I'm sorry I have no experience with cellphone cameras so can't help with the rotation/posting.

Try asking one of the younger members.

I would say, however, that if you can, greyscale saves memory and transmission bytes, when colour is not needed.

 

Here are your rotated and greyed images plus my working of the problem.

 

Note I have used the radii not the diameters, since this avoids some extra fractions.

I suspect you have got some (one) of the fractions the wrong way up, so the fewer the better.

 

Once again the problem solution depends upon the force being the same in both.

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post-74263-0-72839700-1459002480_thumb.jpg

post-74263-0-63230400-1459002478_thumb.jpg

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