Free Body Diagrams 1. Draw a free body diagram to represent all of the forces acting on a book that is at rest on a table. 2. What are the features of a good free body diagram? What is the best way to represent the interaction itself? Why is the length of each vector important? 3. How should the length of the arrows representing each force compare for the book on the table? Why?
Free Body Diagrams 1. Draw a free body diagram to represent all of the forces acting on a book that is at rest on a table. 2. What are the features of a good free body diagram? What is the best way to represent the interaction itself? Why is the length of each vector important? 3. How should the length of the arrows representing each force compare for the book on the table? Why?
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1. Draw a free body diagram to represent all of the forces acting on a book that is at rest on a table.
2. What are the features of a good free body diagram? What is the best way to represent the interaction itself?
Why is the length of each vector important?
3. How should the length of the arrows representing each force compare for the book on the table? Why?
4. Let's place a second book on top of the book on the table. Draw a free body diagram for each book. Which
forces are of equal magnitude?
5. None of the forces on the diagram of the first book should show up on the diagram of the second book and
vice versa. Why is this?
6. What type of force does the top book apply on the bottom book? Why would it be inaccurate to say that the
weight of the top book acts on the bottom one?
7. How does the free body diagram of the lower book compare to the free body diagram you drew in question 1?
Which forces changed and which stayed the same?"
Transcribed Image Text:Free Body Diagrams
1. Draw a free body diagram to represent all of the forces acting on a book that is at rest on a table.
2. What are the features of a good free body diagram? What is the best way to represent the interaction itself?
Why is the length of each vector important?
3. How should the length of the arrows representing each force compare for the book on the table? Why?
4. Let's place a second book on top of the book on the table. Draw a free body diagram for each book. Which
forces are of equal magnitude?
5. None of the forces on the diagram of the first book should show up on the diagram of the second book and
vice versa. Why is this?
6. What type of force does the top book apply on the bottom book? Why would it be inaccurate to say that the
weight of the top book acts on the bottom one?
7. How does the free body diagram of the lower book compare to the free body diagram you drew in question 1?
Which forces changed and which stayed the same?
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