How Much Energy Is Lost to Friction in This Physics Problem?

AI Thread Summary
In the given physics problem, a rope is pulled upward on a cylinder attached to a vertical rod, resulting in a total work input of 100 J. The system experiences an increase in kinetic energy of 50 J and gravitational potential energy of 20 J, totaling 70 J. To find the energy lost to friction, the work done against friction can be calculated by subtracting the total energy increases from the total work input. Thus, the work done against friction is 30 J. This analysis highlights the importance of applying the conservation of energy principle to determine energy losses in systems with friction.
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Homework Statement


In the diagram given, you pull upward on a rope that is attached to a cylinder on a vertical rod. Because the cylinder fits tightly on the rod, the cylinder slides along the rod with considerable friction. Your force does work (W = + 100 J) on the cylinder–rod–Earth system (Fig. 8-23b). An “energy statement” for the system is shown in the diagram: the kinetic energy K increases by 50 J, and the gravitational potential energy Ug increases by 20 J.
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Homework Equations


q=mcdT

The Attempt at a Solution


As far as I know, thermal energy is q=mcdT, but none of those values are given here.
 
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q = mcΔT has no application here since you are not given the mass or the temperature change or the specific heat. You are supposed to determine the work done against friction by applying the principle of conservation of energy. If 70J of work are used to increase kinetic and potential energy, how much of the 100J of work is done against the friction force?

AM
 
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...
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