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Показувати елементи керування програвачем
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Read this in the book and it wasn't so clear. Now it does. Thank you,Dr.Hanson!
LOVE THIS EXPLANATION!!!! Thank you! And love Phil 4:13 AMEN!
You dropped this 👑👏
i can tell that you try to do in depth in a subject to explain to students. keep it up
What a great explanation. Thank you, sir!
Read in DeGarmo but couldn't understand....thanks to you sir.. keep making nice videos😊😊🙏🙏
Thank you. I appreciate your explanation. God bless.
Thank you ❤ Its always you that helps me with these hard subjects
Wonderful Lectures ! Thanks.
Thanks! Wish me luck on my material science midterm... heading in now
Thank you sir for explaining this
Perfect video thanks Prof
that's sooo helpful thanks proff
It helped so much thank you
Thanks! ..clears a lot
Great explanation!
great work keep it up bud
.2% of what? .2% the length of the sample? or just always .002
Just always 0.002 since strain is dimensionless
0.002 form the elongation at break
This was the best explanation ever❤
great job!
thanks, helped alot
Jeff you're the goat
thanks you're a legend!
He changed the name from solids!! Nice call
wish this dude was my professor
THANK YOU JEFF
Thank you very much sir
adamsın jeff hanson
can anyone tell me the difference between Rp0.2 and Rt0.5 or link me somthing?
Thank you sir
Explain what is .20% first. It is 0.002 of what?
In a tensile test, the region tested is 1 in. .2% of that 1 inch section is elongation of .002
@@Gabe-zt5ho thank you Sir
Kinda crazy how this rule came about. I think if you take the offset rule at face value then it just looks like someone arbitrarily picked .002 and said use E to find the yield point.
what about for polymer?
Thx
I LIKE VIDEO TEACHER
The tutor refuses to explain it and just makes us do it. Ended up here now.
امنور دكتور بلجودة بيك اصلي ياصقر
i love this manno homo
google says aluminum is ductile
@@YaseerAlshaibani true but I’d call it “barely ductile…”
Really weird stuff man
Definitely not 10000, maximum 500
Disliked
Read this in the book and it wasn't so clear. Now it does. Thank you,Dr.Hanson!
LOVE THIS EXPLANATION!!!! Thank you! And love Phil 4:13 AMEN!
You dropped this 👑👏
i can tell that you try to do in depth in a subject to explain to students. keep it up
What a great explanation. Thank you, sir!
Read in DeGarmo but couldn't understand....thanks to you sir.. keep making nice videos😊😊🙏🙏
Thank you. I appreciate your explanation. God bless.
Thank you ❤ Its always you that helps me with these hard subjects
Wonderful Lectures ! Thanks.
Thanks! Wish me luck on my material science midterm... heading in now
Thank you sir for explaining this
Perfect video thanks Prof
that's sooo helpful thanks proff
It helped so much thank you
Thanks! ..clears a lot
Great explanation!
great work keep it up bud
.2% of what? .2% the length of the sample? or just always .002
Just always 0.002 since strain is dimensionless
0.002 form the elongation at break
This was the best explanation ever❤
great job!
thanks, helped alot
Jeff you're the goat
thanks you're a legend!
He changed the name from solids!! Nice call
wish this dude was my professor
THANK YOU JEFF
Thank you very much sir
adamsın jeff hanson
can anyone tell me the difference between Rp0.2 and Rt0.5 or link me somthing?
Thank you sir
Explain what is .20% first. It is 0.002 of what?
In a tensile test, the region tested is 1 in. .2% of that 1 inch section is elongation of .002
@@Gabe-zt5ho thank you Sir
Kinda crazy how this rule came about. I think if you take the offset rule at face value then it just looks like someone arbitrarily picked .002 and said use E to find the yield point.
what about for polymer?
Thx
I LIKE VIDEO TEACHER
The tutor refuses to explain it and just makes us do it. Ended up here now.
امنور دكتور بلجودة بيك اصلي ياصقر
i love this man
no homo
google says aluminum is ductile
@@YaseerAlshaibani true but I’d call it “barely ductile…”
Really weird stuff man
Definitely not 10000, maximum 500
Disliked