Solve Physics 2 Lab Problem with Attached Help - Expert Tips Included!

AI Thread Summary
The user is seeking assistance with a specific Physics 2 lab problem, expressing uncertainty about how to approach it. They mention that the link to the problem is not functioning and have also posted the same issue in an advanced physics forum for additional help. The request emphasizes the urgency and importance of receiving guidance. The user appreciates any support offered in solving the problem. Overall, the discussion highlights a need for expert tips to tackle the lab challenge effectively.
carley132
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I have the problem attached to this. Any help would be AMAZING. I just don't know what to do for this problem.
Thanks in advance!
 

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link doesn't seem to be working.
 
i put the same problem up under the advanced physics forum in a doc file also if you wouldn't mind looking there
 
Thread 'Collision of a bullet on a rod-string system: query'

Thread 'Collision of a bullet on a rod-string system: query'

In this question, I have a question. I am NOT trying to solve it, but it is just a conceptual question. Consider the point on the rod, which connects the string and the rod. My question: just before and after the collision, is ANGULAR momentum CONSERVED about this point? Lets call the point which connects the string and rod as P. Why am I asking this? : it is clear from the scenario that the point of concern, which connects the string and the rod, moves in a circular path due to the string...
View full post »
Thread 'A cylinder connected to a hanged mass'

Thread 'A cylinder connected to a hanged mass'

Let's declare that for the cylinder, mass = M = 10 kg Radius = R = 4 m For the wall and the floor, Friction coeff = ##\mu## = 0.5 For the hanging mass, mass = m = 11 kg First, we divide the force according to their respective plane (x and y thing, correct me if I'm wrong) and according to which, cylinder or the hanging mass, they're working on. Force on the hanging mass $$mg - T = ma$$ Force(Cylinder) on y $$N_f + f_w - Mg = 0$$ Force(Cylinder) on x $$T + f_f - N_w = Ma$$ There's also...
View full post »

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