As you know I am constantly on the watch for great articles on Mechanical Engineering, knowing that a Mechanical Engineering is
essential for the knowledge.
I discovered a truly informative post that talks about Mechanical Engineering from a new perspective. Make sure you look into this piece of content and let me know what you think. Today’s piece of content is titled title and you can read the full article printed below for convenience:
A plate that is 5cm wide and 1 cm thick has a hole that is .25cm in diameter, is subjected to a tensile force of 60N. What is tensile failure strength must material possess to avoid failure? (Plate is made of a brittle material, so Maximum Shear Stress Theory is used, I believe)
Similar Posts
You may know that I am constantly on the watch for informative articles on Mechanical Engineering, recognizing that a Mechanical Engineering is
required for the knowledge.
I ran into a very informative article that explains Mechanical Engineering from a different perspective. Make sure you check out this piece of content and inform me your opinion. Today’s piece of content is titled title and you can read the entire article published below for convenience:
Please explain this considering i am just a second year IE student
Similar Posts
I trying to think of a better object to replace a rubber band in a propeller for a toy car but I want it to be stronger. The object / material doesn’t necessarily have to accessible to me , it just has to exist.
Don’t think there’s much more to add, save that I’m doing some research for a story and looking for a material that can 
have a sizable pocket of vacuum in the middle without imploding. Manufacturing difficulties are irrelevant.
Similar Websites
If I have two separate materials that each have a tensile strength of 200lbs that I attach together, does the total tensile strength of two attached pieces increase to 400lbs? Or does it still remain 200lbs as that is the rating per item?
Thanks!
