Asked by unknown
Okay, so I've figured this much out on my own, I just need help with the next part.
It's a two block system with a friction of .20 a hanging mass of 7.5 kg and mass on the table at 10 kg. I got 3.08 m/s^2 for the acceleration and I got 22.8 N for the tension in the rope.
This part has me stuck:Suppose the hanging mass is replaced by a downward force of 75 N. What will be the resulting acceleration of the system?
It's a two block system with a friction of .20 a hanging mass of 7.5 kg and mass on the table at 10 kg. I got 3.08 m/s^2 for the acceleration and I got 22.8 N for the tension in the rope.
This part has me stuck:Suppose the hanging mass is replaced by a downward force of 75 N. What will be the resulting acceleration of the system?
Answers
Answered by
bobpursley
ok, what has the hanging mass have to do with a table?
Answered by
unknown
Well it's a two part system, so the mass is a force that the other mass has to overcome in order to move
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