I feel the same as Eli. I was able to solve the problems in class with help from a classmate, but in all honesty for the life of me I can't do it alone. -- Grant Kitchen
Friction problems are done just like regular F=ma problems, letting friction just be another force (which can also be sub'd as uN.
With circular motion, the problems are a bit trickier, but you still set up FBDs for each body. If the body in question is undergoing the circular motion, it's acceleration is v^2/r
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ReplyDeleteI feel the same as Eli. I was able to solve the problems in class with help from a classmate, but in all honesty for the life of me I can't do it alone. -- Grant Kitchen
ReplyDeleteNo problem. We'll go ove them tomorrow.
ReplyDeleteFriction problems are done just like regular F=ma problems, letting friction just be another force (which can also be sub'd as uN.
With circular motion, the problems are a bit trickier, but you still set up FBDs for each body. If the body in question is undergoing the circular motion, it's acceleration is v^2/r
Talk about these tomorrow. Bring what you have.