The term Modulus depict about "throughout the volume" means we are specifying that the perticular material which is loaded or unloaded, Resisting (interanal Resisting force) to the external applied load in order to maintain the shape. Now some points I want to put clear the misconceptions accepted by us. 1.There is no stress measuring device in entire world so how could we plot stress vs strain diagram? Ans is ,it is Load vs deformation diagram. Load/resisting area is Stress. 2. Deformation means not failure. 3. Rigidity term comes in picture when the plane,any plane you can take on any shape of material (square,round bar, hex shape....any) if you applied any load/force and if can visualise that plane is shifted or deviated for that case we use Rigidity term. Why Rigidity ? The term rigid means no changes in distance between any molecules of rigid material. So if use term rigidity means you can use it like how much rigid is that material. Lesser the value of Rigidity more will you see changes in its dimensions. 4. Ductility : Plastic deformation response of material under tensile load 5. Malleability: Plastic response of material under compressive loading
Resilience is the strain energy stored within an elastic limit. Proof resilience is the maximum strain energy which can be stored upto elastic limit. In reality, PL and EL are so close to each other also once the material is loaded beyond the proportionality limit hookes law is not valid as the curve is non linear. Generally we consider deformations are so small hence it can be neglected and we assume upto this point is elastic limit. Once we assuming it why dont we apply a straight away an area formula(1/2bh) to determine proof resilience?? But you are completely negelecting the area. My question is why dont we consider those area too by assuming it as straight line as the deformation is very very small we can neglect the deformation and it can be assume it as a straight line na.
@@ExergicGATE Sir, Moreover if such question comes in the real exam. Is there any source which we can cite to prove this point. I got what you said but The GATE officials wouldn't agree at this point because it is mentioned in books also.
I think there is some mistake in it. Because if PL and EL are so close, why can't we consider from origin to EL as a straight line and find the area? According to the graph (stress-strain) area under the curve, PL EL will be much greater than the small tangential area formed by the curve itself(1/2 dy/dx). This could reduce the error. The reason why we take the area under the proportional limit might be something else. What do you think?
Distance between PL and EL is different for different materials as mentioned in the video. Some sources do consider it upto EL. Some do consider it upto YPL as well as mentioned in the video. But triangle stops being existing after PL. And so this formula derived from Hooke's Law cannot be applied. We have definite sources to prove this reasoning.
You said that we can ignore the area but in this question the ignored area calculated comes to be approx. 3 times than the modulus of resilience you have calculated. How can that be justified?
@@ExergicGATE Is it correct that if I calculate from (elastic limit)^2/2E where elastic limit is 355 mPa and E calculate from Hooke's law? The answer still came in range.
If both proportionality and elastic limit points(practically) very close to eachother, then taking elastic limit value and calculating modulus of resilience should be near to one taking with proportionality limit. So why cant we take elastic limit??
This point has already been explained in the video. We can take EL or YPL also as mentioned in the video. But exact point should be PL, not other points.
Sir I am thinking Of taking exergic full material+Video course for GATE-2022... Sir i just want to know how the videos and material is being modified keeping msq in the sight.....
Hello Shubham, You can visit EXERGIC website for all course details. For any further queries, you can call on 9536651816 or mail at support@exergic.in Thank you.
@excergic it's been to my attention that there is none of video promoted for Engg Mathematics.. it would be great if you could upload the same. Waiting for your positive response :)
Sir instead of ignoring that area ...we can assume that the line between PL and EL is straight and can calculate the area by taking the traingle with its perpendicular as EL ....as the points are soo close ...
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Very good explanation.
The term Modulus depict about "throughout the volume" means we are specifying that the perticular material which is loaded or unloaded, Resisting (interanal Resisting force) to the external applied load in order to maintain the shape.
Now some points I want to put clear the misconceptions accepted by us.
1.There is no stress measuring device in entire world so how could we plot stress vs strain diagram?
Ans is ,it is Load vs deformation diagram. Load/resisting area is Stress.
2. Deformation means not failure.
3. Rigidity term comes in picture when the plane,any plane you can take on any shape of material (square,round bar, hex shape....any) if you applied any load/force and if can visualise that plane is shifted or deviated for that case we use Rigidity term.
Why Rigidity ?
The term rigid means no changes in distance between any molecules of rigid material. So if use term rigidity means you can use it like how much rigid is that material.
Lesser the value of Rigidity more will you see changes in its dimensions.
4. Ductility : Plastic deformation response of material under tensile load
5. Malleability: Plastic response of material under compressive loading
I have seen rolling friction videos & now I'm speechless
Rename yourself as "Narendra" you won't be speechless onward 😉
@@aps184 epic😂😂😂😂😂😂😂
Modi chacha
Excellent
Resilience is the strain energy stored within an elastic limit.
Proof resilience is the maximum strain energy which can be stored upto elastic limit.
In reality, PL and EL are so close to each other also once the material is loaded beyond the proportionality limit hookes law is not valid as the curve is non linear. Generally we consider deformations are so small hence it can be neglected and we assume upto this point is elastic limit. Once we assuming it why dont we apply a straight away an area formula(1/2bh) to determine proof resilience?? But you are completely negelecting the area. My question is why dont we consider those area too by assuming it as straight line as the deformation is very very small we can neglect the deformation and it can be assume it as a straight line na.
Sir please start DailyDose series back, very helpful
It will start from Thursday this week
Sir i was nt aware about exergic that time otherwise i would have taken admission here only but still i would say uhhh r the best😎😎
@@Ambitiousgovtengr lol
@@ExergicGATE sir still i haven't received the daily dose
What is DailyDose series ?
Good observation.
Liked before watching...
Good explanation 👍, still, i was looking for its explanation on unbound or just mechanically bound materials like pavements
Amazing
Dear Sir,
In my opinion, the error in using elastic limit should be lesser than that by ignoring that area.
Good point, indeed.
@@ExergicGATE
Sir, Moreover if such question comes in the real exam. Is there any source which we can cite to prove this point.
I got what you said but The GATE officials wouldn't agree at this point because it is mentioned in books also.
We have sources to prove it. Pls contact us if such question is asked in GATE.
Thank you so much sir
I think there is some mistake in it. Because if PL and EL are so close, why can't we consider from origin to EL as a straight line and find the area? According to the graph (stress-strain) area under the curve, PL EL will be much greater than the small tangential area formed by the curve itself(1/2 dy/dx). This could reduce the error.
The reason why we take the area under the proportional limit might be something else. What do you think?
Distance between PL and EL is different for different materials as mentioned in the video.
Some sources do consider it upto EL. Some do consider it upto YPL as well as mentioned in the video.
But triangle stops being existing after PL. And so this formula derived from Hooke's Law cannot be applied.
We have definite sources to prove this reasoning.
Sir please update demo test series as well
Please mail us at support@exergic.in
💙💙💙
Sir where can I find webinars regarding notes making.How to include study material and video course in notes making plz tell sir 🙏🙏
Any courses for MT??
Sir,When Additional syllabus covered in Course ???
Please keep checking Students Centre for uploading information.
Which one is property of a material?
What is the value of E for given questions
You said that we can ignore the area but in this question the ignored area calculated comes to be approx. 3 times than the modulus of resilience you have calculated. How can that be justified?
In this question, PL, EL and YPL are already way far from each other. And added only to test this specific knowledge.
@@ExergicGATE Is it correct that if I calculate from
(elastic limit)^2/2E where elastic limit is 355 mPa and E calculate from Hooke's law? The answer still came in range.
Sir m mechanical 3rd sem m hu mujhe abhi skill sikhna chahiye ki gate ki preparation ache se krna chahiye kyuki mujhe PSUs m jana hai
If both proportionality and elastic limit points(practically) very close to eachother, then taking elastic limit value and calculating modulus of resilience should be near to one taking with proportionality limit. So why cant we take elastic limit??
This point has already been explained in the video. We can take EL or YPL also as mentioned in the video.
But exact point should be PL, not other points.
@@ExergicGATE Thanks for the reply. It would be useful if you could post like these tricky questions with a proper solution (like this video).
Sir I am thinking Of taking exergic full material+Video course for GATE-2022... Sir i just want to know how the videos and material is being modified keeping msq in the sight.....
Hello Shubham,
You can visit EXERGIC website for all course details. For any further queries, you can call on 9536651816 or mail at support@exergic.in
Thank you.
From where can I get to know about premium webinars ?
Please mail us at support@exergic.in
@excergic it's been to my attention that there is none of video promoted for Engg Mathematics.. it would be great if you could upload the same. Waiting for your positive response :)
Thank you for your input.
Please mail us at support@exergic.in
Please do solve pressure vessels question in 2018 set -2 ..... Not at all agree with official key
www.examhill.com/som-gate-2018-set-2/#t2
Jaise mere branch wale autocad, Fusion, Nx, Catia, C, C ++, Python, arduino, sikh rhe h
Excellent 👍
Sir thodi hindi ... English me books hai 😊
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Go through the above link. You can know about experiences of enrolled users.
Sir is it possible to crack gate within 4 months?
Sir instead of ignoring that area ...we can assume that the line between PL and EL is straight and can calculate the area by taking the traingle with its perpendicular as EL ....as the points are soo close ...
Sir plz aap unacademy pr aa jao plz plz
Sir please use hindi language also for better understanding