Hello, very nicely presented explanations..i have one point though, during bcc slip plane explanations the way you have placed x', y', z' are wrong..either z' is to be reversed or x' and y' are to be switched..
Quick question: At 8:00 mins, if the bonds are stronger and closely packed, doesn't that make it harder to break the bonds and easier to re-form rather than easy to break and easy to re-form?
These additional planes in the {111} family of planes can be slip planes if there is some component of resolved shear stress that will move that particular plane. You must look at the direction that the planes would slip and the direction of the applied stress and how these are oriented with respect to the plane that you are considering as a potential slip plane.
@@marwanadel__ You need to look at the complete slip system - specific sets of planes that are associated with a direction of applied stress. (111) is the same as (-1-1-1) , you will see if you draw out the planes. If the plane is perpendicular to or parallel to the direction of applied stress, then it is not a part of the slip system. You need to have a component of resolved shear stress in the plane.
i really appreciate all these videos, really beats our lecturer any day
Beside your good teaching, your voice is very nice!
Amazing..............your voice and reading skils made me watch this entire video...!!!
you just sound like dakota johnson
Hello, very nicely presented explanations..i have one point though, during bcc slip plane explanations the way you have placed x', y', z' are wrong..either z' is to be reversed or x' and y' are to be switched..
Excellent video. Very well presented with clear diagrams. Thanks!
Quick question: At 8:00 mins, if the bonds are stronger and closely packed, doesn't that make it harder to break the bonds and easier to re-form rather than easy to break and easy to re-form?
It makes it harder to break the bonds yes but that should only inform how you're conceptualizing activation energy not dislocation motion.
someone please give this woman a glass of water. PLEASE!!
Could you please make a video about fatigue and torsion testing or just about torsional fatigue
Thank you for this clear video!
Excellent video, thank you very much!
excellent! thank you
I love your voice omg
Very helpful, thank you.
May i know how you determine the origin ?
Can i find some explication about alexander and hassan model in your chanel
Great explanation much better than my professor lol
Thank you for this!
Wait can slip system answers vary based on what we chose as our orgin?
That should not matter.
Really good review
Excellent video, very helpful! As far as I know, proportional limit and yield strength are not the same. May want to check that tho.
please explain slip system along HCP crystal structure.
so hard broo , harddd
thankyou u are good
why no videos since 7 years ?
Very well explained, thank you! I'm not sure why there isn't a slip plane that is (-1 -1 -1) or (-1 1 -1) etc, does anyone know? :)
These additional planes in the {111} family of planes can be slip planes if there is some component of resolved shear stress that will move that particular plane. You must look at the direction that the planes would slip and the direction of the applied stress and how these are oriented with respect to the plane that you are considering as a potential slip plane.
@@tanyafaltens5967 but why aren't they counted with the other slip planes??
she says in the video that there are 4 planes !!!
@@marwanadel__ You need to look at the complete slip system - specific sets of planes that are associated with a direction of applied stress. (111) is the same as (-1-1-1) , you will see if you draw out the planes. If the plane is perpendicular to or parallel to the direction of applied stress, then it is not a part of the slip system. You need to have a component of resolved shear stress in the plane.
@@tanyafaltens5967 now i get it..thanks for your heed!
Who else wishes to see the face of the person behind this.
finally,i miss you from the last video 😂
I like your voice
All of MSE 250 is a muddiest point.
You sound very close to Jenna Fischer
get a desser for your videos yet? i sure hope so
would you marry me?
😂😂😂😂😂
Lol
😂😂😂😂
please explain slip system along HCP crystal structure.