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Yang Cao
Добавлен 9 ноя 2009
2017W APSC248 Lecture15 Double Integral, Part 2
2017W APSC248 Lecture15 Double Integral, Part 2
Просмотров: 611
Видео
Tutorial on Geometric Relationship between Lines and Planes
Просмотров 1,1 тыс.8 лет назад
Tutorial on Geometric Relationship between Lines and Planes
2014W ENGR380 Lecture35 Mechancial Springs
Просмотров 10 тыс.9 лет назад
2014W ENGR380 Lecture35 Mechancial Springs
2014W ENGR487 Lecture21 Kalman Filter
Просмотров 1,8 тыс.9 лет назад
2014W ENGR487 Lecture21 Kalman Filter
2014W ENGR380 Lecture34 Design of Welded Joints, Part 2
Просмотров 8 тыс.9 лет назад
2014W ENGR380 Lecture34 Design of Welded Joints, Part 2
2014W ENGR380 Lecture33 Design for Welded Joints, Part 1
Просмотров 18 тыс.9 лет назад
2014W ENGR380 Lecture33 Design for Welded Joints, Part 1
2014W ENGR487 Lecture20 Review of Probability and Statistics Concepts and Kalman Filter
Просмотров 1,1 тыс.9 лет назад
2014W ENGR487 Lecture20 Review of Probability and Statistics Concepts and Kalman Filter
2014W ENGR380 Lecture32 Tension Joint Safety Analysis, Part 2 and Introduction to Welded Joint
Просмотров 4,8 тыс.9 лет назад
2014W ENGR380 Lecture32 Tension Joint Safety Analysis, Part 2 and Introduction to Welded Joint
2014W ENGR487 Lecture19 Linear Optimal Control, Part 2 and Review on Probability and Statistics
Просмотров 8319 лет назад
2014W ENGR487 Lecture19 Linear Optimal Control, Part 2 and Review on Probability and Statistics
2014W ENGR380 Lecture31 Tension Joint Safety Analysis, Part 1
Просмотров 8 тыс.9 лет назад
2014W ENGR380 Lecture31 Tension Joint Safety Analysis, Part 1
2014W ENGR380 Lecture30 Threaded Fasteners and Stiffness of Bolted Joints
Просмотров 74 тыс.9 лет назад
2014W ENGR380 Lecture30 Threaded Fasteners and Stiffness of Bolted Joints
2014W ENGR486 Lecture19 Dynamics, Part 1
Просмотров 3 тыс.9 лет назад
2014W ENGR486 Lecture19 Dynamics, Part 1
2014W ENGR380 Lecture28 Variable Loading of Bearings and Introduction to Screws
Просмотров 4,4 тыс.9 лет назад
2014W ENGR380 Lecture28 Variable Loading of Bearings and Introduction to Screws
2014W ENGR487 Lecture17 Min/Max and Lagrange Multiplier
Просмотров 6809 лет назад
2014W ENGR487 Lecture17 Min/Max and Lagrange Multiplier
2014W ENGR380 Lecture27 Selection Procedures of Bearings
Просмотров 9 тыс.9 лет назад
2014W ENGR380 Lecture27 Selection Procedures of Bearings
2014W ENGR487 Lecture16 Reduced-order Observer Design
Просмотров 3,8 тыс.9 лет назад
2014W ENGR487 Lecture16 Reduced-order Observer Design
2014W ENGR380 Lecture26 Introduction to Bearings
Просмотров 8 тыс.9 лет назад
2014W ENGR380 Lecture26 Introduction to Bearings
2014W ENGR487 Lecture15 Full-order Observer Design
Просмотров 1,6 тыс.9 лет назад
2014W ENGR487 Lecture15 Full-order Observer Design
2014W ENGR486 Lecture05 Homogeneous Transformation (Part I)
Просмотров 2,4 тыс.9 лет назад
2014W ENGR486 Lecture05 Homogeneous Transformation (Part I)
2014W ENGR486 Lecture16 Inverse Kinematics using Jacobian-based Numerical Method
Просмотров 10 тыс.9 лет назад
2014W ENGR486 Lecture16 Inverse Kinematics using Jacobian-based Numerical Method
2014W ENGR380 Lecture24 Shaft Design, An Example
Просмотров 6 тыс.9 лет назад
2014W ENGR380 Lecture24 Shaft Design, An Example
2014W ENGR486 Lecture15 Statics, Kinematic Redundancy and Jacobian-based inverse kinematics
Просмотров 2,9 тыс.9 лет назад
2014W ENGR486 Lecture15 Statics, Kinematic Redundancy and Jacobian-based inverse kinematics
2014W ENGR380 Lecture23 General Shaft Design Considerations
Просмотров 3 тыс.9 лет назад
2014W ENGR380 Lecture23 General Shaft Design Considerations
2014W ENGR487 Lecture14 Mapping fromms-plane to z-plane, Part II
Просмотров 2,1 тыс.9 лет назад
2014W ENGR487 Lecture14 Mapping fromms-plane to z-plane, Part II
2014W ENGR380 Lecture22 Effect of Terms in AGMA Equations
Просмотров 2,5 тыс.9 лет назад
2014W ENGR380 Lecture22 Effect of Terms in AGMA Equations
2014W ENGR486 Lecture14 Kinematic Singularities
Просмотров 2,2 тыс.9 лет назад
2014W ENGR486 Lecture14 Kinematic Singularities
2014W ENGR380 Lecture21 Gear Design using AGMA Equation, Part II
Просмотров 6 тыс.9 лет назад
2014W ENGR380 Lecture21 Gear Design using AGMA Equation, Part II
2014W ENGR486 Lecture13 Analytical Jacobian
Просмотров 4,3 тыс.9 лет назад
2014W ENGR486 Lecture13 Analytical Jacobian
Equation Driven Curve: "D2@Sketch2" - Circle Name from which is shape created "D2@Sketch2"*.5*(cos(t)+t*sin(t)) "D2@Sketch2"*.5*(sin(t)-t*cos(t)) Mirrored Curve: "D2@Sketch2"*.5*(cos(-t-2*"D4@Sketch2"*pi/180)-t*sin(-t-2*"D4@Sketch2"*pi/180)) "D2@Sketch2"*.5*(sin(-t-2*"D4@Sketch2"*pi/180)+t*cos(-t-2*"D4@Sketch2"*pi/180)) Remember you need to be in Sketch2 to make it work.
How do you create a curve with profile shift?
Thanks Yang, the tutorial is detailed and easy to follow. Save me tons of time!.
Very good! Two question. The parametric part remains blue is it still undefined then?
very good:-) thank you
Can we have access to the tutorial you used as base.
Super helpful video. Some advice would be set the number of instances of your circular pattern to "n" and the fillet to a fraction of "c" (for example he used R.10 with a .125 clearance, so you could set your fillet to 4/5*"c") to ensure it will never be larger.
Great video and explanation, love it 💚💯🔥
Can’t believe I took this class 10 years ago 😢
Nice info,thanks for sharing it with us, well done :)
AWSOME WORK SIR !!
Hi there, do you know why solidworks spur gears only allow certain diametial pitch values, is it due too gear wear, or gearing issues?
thanks!! one of the best lesson, one question, if we use analytic Jacobian, I think the best set of Euler we choose is xyz, not zyz, in real application, it is right??
This method looks pretty strong
Would it be possible to mirror the second involute istead of using another parametric curve?
First thing you should do is fail any student who writes any entry to the right of the decimal point. This rule should be driven home to all students
exusme sir how can i get the slides presentation?
Thank you so much!! I needed to crank up a bit but it was totally worth it!
Im so happy I can make gears now!!!!
can i get the gear design docmont to help me for calculation textbook problem
any odds you could make the drive public?
Where is this static analysis video? I can't hear what you are saying.
Best lecture on fatigue, students rush out of classroom as the lecture ends lol.
Equations?
Gears!
Thank you, this was extremely useful and helpful
We can't see your equation for alpha in the equations manager.
You need to slow down and show how you put those quotation marks into your equation for alpha. It took me at least 15 minutes of rewinding to figure what you did here. I still do not see how you did it automatically.
It is possible to share the pdf document? I have sent you a request.
super video it is very helpful
Hi Where can I download the table 8
thanks a lot
How use excel
For number inside of the circular pattern could you not just call the variable "number or teeth"?
could you please share the matlab program file?thank you!
This video is before the Germany 7-1 Brazil defeat in world cup semi-final, I was 12 when this video was released.
Dr Yang, really helpful video. Question from my side (couple of years after your video and the majority of the responses) But, can you please describe / explain why are you using "t2=0.68" which such value? I've reviewed your material, and I don't see, yet, the correlation Could you please help me to understand? Thanks
I played with it. I could be totally wrong but I think t2=.68 just guarantees the involute curve will extend past the addendum circle diameter. Like if you made both t2s=.75, the gear would still be exactly the same.
Can you please provide the document
where does the 0.68 come from in the involute curve parametric equation
nice lesson, thank you
Sir Would you pls make a video on ""AGMA vs ISO Design approach for spur gear"" I really need it for assignment
ruclips.net/video/aEdqVULIAt0/видео.html
It basically saved my life thanks sir
Great video sir!
millions of thanks! Professor you nail it!
讲得非常好👍谢谢