To study for your upcoming assignment, you have placed two of your favorite physics textbooks, one on top of another, on your table as shown. The mass of book 1 is 600 grams. The mass of book 2 is 300 grams. The coefficient of kinetic friction between book 1 and the table is UHa1) = 0.2. The coefficient of static friction between book 1 and book 2 is us(1.2) = 0.3. Use g=9.81m/s Find, in Newtons, Fmax, the maximum force with with you can push the book at the bottom (book 1) such that both books slide together on the table, without the book on the top (book 2) sliding off.
To study for your upcoming assignment, you have placed two of your favorite physics textbooks, one on top of another, on your table as shown. The mass of book 1 is 600 grams. The mass of book 2 is 300 grams. The coefficient of kinetic friction between book 1 and the table is UHa1) = 0.2. The coefficient of static friction between book 1 and book 2 is us(1.2) = 0.3. Use g=9.81m/s Find, in Newtons, Fmax, the maximum force with with you can push the book at the bottom (book 1) such that both books slide together on the table, without the book on the top (book 2) sliding off.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter2: Vectors
Section: Chapter Questions
Problem 2.13CYU: Check Your Understanding Find the angle between forces F1and F3in Example 2.16.
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Transcribed Image Text:To study for your upcoming assignment, you have placed two of your favorite physics textbooks, one on top of another, on your table as
shown. The mass of book 1 is 600 grams. The mass of book 2 is 300 grams. The coefficient of kinetic friction between book 1 and the table is
HHa1) = 0.2. The coefficient of static friction between book 1 and book 2 is u(1.2) = 0.3. Use g=9.81m/s
Find, in Newtons, Fmoz, the maximum force with with you can push the book at the bottom (book 1) such that both books slide together on
the table, without the book on the top (book 2) sliding off.
Transcribed Image Text:Find the maximum possible force
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