Shown in the figure below is a magazine resting on top of a book. There is static friction between the magazine and the book and there is kinetic friction between the book and the table. If you pull very gently on the book, both objects slide together. If you pull very forcefully, you will slide the book out from under the magazine. In this problem, we will determine the MAXIMUM FORCE that you can apply and still have the magazine come along for the ride. με με m1 magazine m2 book Emax=? The characteristics of the system are given here: • m₁ = 0.83 kg • m2 = 1.01 kg • Ms = 0.48 • μk = 0.11 Answer all the following: What is the normal force, N1, of the book on the magazine? What is the normal force, N2, of the table on the book? What is the acceleration, a of the system? What is the force applied, Fmax? N N N m/s²

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Shown in the figure below is a magazine resting on top of a book. There is static friction between the magazine and the book and there is kinetic friction between the book and the table. If you pull very
gently on the book, both objects slide together. If you pull very forcefully, you will slide the book out from under the magazine. In this problem, we will determine the MAXIMUM FORCE that you can
apply and still have the magazine come along for the ride.
με
με
m1 magazine
m2 book
Emax=?
The characteristics of the system are given here:
• m₁ =
0.83 kg
• m2 = 1.01 kg
• Ms = 0.48
• μk = 0.11
Answer all the following:
What is the normal force, N1, of the book on the magazine?
What is the normal force, N2, of the table on the book?
What is the acceleration, a of the system?
What is the force applied, Fmax?
N
N
N
m/s²
Transcribed Image Text:Shown in the figure below is a magazine resting on top of a book. There is static friction between the magazine and the book and there is kinetic friction between the book and the table. If you pull very gently on the book, both objects slide together. If you pull very forcefully, you will slide the book out from under the magazine. In this problem, we will determine the MAXIMUM FORCE that you can apply and still have the magazine come along for the ride. με με m1 magazine m2 book Emax=? The characteristics of the system are given here: • m₁ = 0.83 kg • m2 = 1.01 kg • Ms = 0.48 • μk = 0.11 Answer all the following: What is the normal force, N1, of the book on the magazine? What is the normal force, N2, of the table on the book? What is the acceleration, a of the system? What is the force applied, Fmax? N N N m/s²
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