Elasticity & Hooke's Law - Intro to Young's Modulus, Stress & Strain, Elastic & Proportional Limit

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When he mentions Area. He is referring to the cross sectional area of the material.

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I now fully understand the purpose of the Young's Modulus after 15 years later since graduating college.

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It's a great explanation

Can we say that the Young Modulus is the amount of force needed to stretch 1m^2 of a material to twice its size? Because if A = 1m^2 and deltaL = L0 (meaning that the material has got to twice its original size), then F = E. If the material stays in the proportional limit during the stretch, I think this is safe to say. What do you guys think?

Good evening
I have a question what is tge meaning of Re
Because se gad a question involving that but have no idea about that.
This the question:assignment
Suppose that the effort in a tie rod is 89.20x104N when
the load to be lifted dis maximum. The tie rod is a still
cable with elastic limit"" Re=580N/m2 "" and its young
modulus E=2x104N/m2
. Consider a safety coefficient of
0.25 and a length of 3m
 Determine the section S and the diameter D of the
cable such that the tie rod can resist safely.
 NB. Diameter available in the market in mm 50-60-80-
85-90-95-100-105-110-115-120-125-130-135-140-145-150-155-
160-165-170-175-180
 What then will be the change in length of the cable?

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Thanks again

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Please can you explain about cross sectional area (A) and its calculation.

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Strength of materials

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I have a problem, I would calculate the movement about a plastic lever. For example a plastic snap hook. I know the formula that Y = c * (E * (L * L)/H)
where y is the movement, c is a constant (physical form about the lever), E is the secant modulus (stress/strain), L is the lenght of the hook, H is the thickness of the hook
The main problem is finding E in the material datasheet! Because inside them you find Yield Stress in MPa and Yield Strain in %. Stress at break in MPa and Strain at break in %. So I can't calculate E with these datas

Pls can I have some videos on shear stress and bending moment ?

Set the speed at 2× and you're good to go ... saving time :)

15:01
Is the F directly proportional to the E??????

I need to see all this applied to an actual problem, otherwise I'm still clueless. And everything is hard to begin with anyway if you're Laurel and Hardy rolled into one [imagine being that way for 58 years now].

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Hey guys I have a doubt if you know it plese comment below
In this video it is said that the higher the are ,the higher stress we need to change its area but what if there is a iron cube with less are and a spunch cube with higher area ,so does it mean that iron cube will take less force ro compress as compare to spunch cube.Well I don't think so,but still if you have some idea please comment 🙏🙏🙏

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Very helpful

Thanks.

at 1:20 you wrote hookes law as f=---kx why is k negative?

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Hi. I have a doubt in Hooke's law. It States that within elastic limit stress is directly proportional to strain. But within elastic limit there is no strain BCOS there is no change in dimensions. Then how we will calculate modulus of elasticity?

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If wood is stretched wont it break 😕

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