Solution Found!
The 0.100-kg sphere in Fig. P13.58 is released from rest
Chapter 13, Problem 62P(choose chapter or problem)
The \(0.100-\mathrm{kg}\) sphere in Fig. P13.62 is released from rest at the position shown in the sketch, with its center \(0.400 \mathrm{~m}\) from the center of the \(\text { 5.00-kg }\) mass. Assume that the only forces on the \(\text { 0.100-kg }\) sphere are the gravitational forces exerted by the other two spheres and that the \(5.00-\mathrm{kg}\) and \(\text { 10.0-kg }\) spheres are held in place at their initial positions. What is the speed of the \(0.100-\mathrm{kg}\) sphere when it has moved \(0.400 \mathrm{~m}\) to the right from its initial position?
Equation Transcription:
Text Transcription:
0.100-kg
0.400 m
5.00-kg
0.100-kg
5.00-kg
10.0-kg
0.100-kg
Questions & Answers
QUESTION:
The \(0.100-\mathrm{kg}\) sphere in Fig. P13.62 is released from rest at the position shown in the sketch, with its center \(0.400 \mathrm{~m}\) from the center of the \(\text { 5.00-kg }\) mass. Assume that the only forces on the \(\text { 0.100-kg }\) sphere are the gravitational forces exerted by the other two spheres and that the \(5.00-\mathrm{kg}\) and \(\text { 10.0-kg }\) spheres are held in place at their initial positions. What is the speed of the \(0.100-\mathrm{kg}\) sphere when it has moved \(0.400 \mathrm{~m}\) to the right from its initial position?
Equation Transcription:
Text Transcription:
0.100-kg
0.400 m
5.00-kg
0.100-kg
5.00-kg
10.0-kg
0.100-kg
ANSWER:
Problem 62P
Solution 62 P
Step 1:
In this question we need to find the velocity of 0.100 kg sphere as it moves 0.400 m from its initial position
Considering the figure given
Data given
Mass of sphere
.100 kg
Distance from
Distance from