Solution Found!
Answer: In a truck-loading station at a post office, a
Chapter 7, Problem 65P(choose chapter or problem)
In a truck-loading station at a post office, a small \(\text { 0.200-kg }\) package is released from rest at point A on a track that is one-quarter of a circle with radius \(1.60 \mathrm{~m}\) (Fig. P7.65). The size of the package is much less than \(1.60 \mathrm{~m}\), so the package can be treated as a particle. It slides down the track and reaches point B with a speed of From point \(4.80 \mathrm{~m} / \mathrm{s}\). B, it slides on a level surface a distance of
\(3.00 \mathrm{~m}\) to point C, where it comes to rest. (a) What is the coefficient of kinetic friction on the horizontal surface? (b) How much work
is done on the package by friction as it slides down the circular arc from A to B?
Equation Transcription:
Text Transcription:
0.200-kg
1.60 m
1.60 m
4.80 m/s
3.00 m
Questions & Answers
QUESTION:
In a truck-loading station at a post office, a small \(\text { 0.200-kg }\) package is released from rest at point A on a track that is one-quarter of a circle with radius \(1.60 \mathrm{~m}\) (Fig. P7.65). The size of the package is much less than \(1.60 \mathrm{~m}\), so the package can be treated as a particle. It slides down the track and reaches point B with a speed of From point \(4.80 \mathrm{~m} / \mathrm{s}\). B, it slides on a level surface a distance of
\(3.00 \mathrm{~m}\) to point C, where it comes to rest. (a) What is the coefficient of kinetic friction on the horizontal surface? (b) How much work
is done on the package by friction as it slides down the circular arc from A to B?
Equation Transcription:
Text Transcription:
0.200-kg
1.60 m
1.60 m
4.80 m/s
3.00 m
ANSWER:
Solution 65P
a)
When the object reached point B, which is at the horizontal surface, it’s velocity was 4.80 m/s.
So, it’s kinetic energy at that point would be,
.
The potential energy at that point would be zero as the height is zero.
So, the total mechanical energy would be 2.304 J.
Then it slided for next 3 meters to point C, where it stopped.