Task III Based on Figure 3. Use the D’Alembert's principle to determine the following knowing that the coefficient of friction p=0.2, O=45°, and the acceleration of gravity g=9.81 m/s². You have to show the free body diagrams and all steps of your solution. A. The expression of the acceleration of the two masses in terms of mi and m2. B. The tension in the rope in terms of m¡ and m2. C. If mi = á kg, m2 = (Á+5) kg, determine the acceleration of two blocks and the tension in the rope. (k= the final two numbers of your ID +10, and, gravitational acceleration, g = 9.81 m/s²).
Task III Based on Figure 3. Use the D’Alembert's principle to determine the following knowing that the coefficient of friction p=0.2, O=45°, and the acceleration of gravity g=9.81 m/s². You have to show the free body diagrams and all steps of your solution. A. The expression of the acceleration of the two masses in terms of mi and m2. B. The tension in the rope in terms of m¡ and m2. C. If mi = á kg, m2 = (Á+5) kg, determine the acceleration of two blocks and the tension in the rope. (k= the final two numbers of your ID +10, and, gravitational acceleration, g = 9.81 m/s²).
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Task III
Based on Figure 3. Use the D'Alembert's principle to determine the following knowing that the coefficient of
friction u=0.2, 0=45°, and the acceleration of gravity g=9.81 m/s². You have to show the free body diagrams
and all steps of your solution.
A. The expression of the acceleration of the two masses in terms of mi and m2.
B. The tension in the rope in terms of mi and m2.
C. If mi = K kg, m2 = (Á+5) kg, determine the acceleration of two blocks and the tension in the rope.
(k= the final two numbers of your ID +10, and, gravitational acceleration, g = 9.81 m/s²).
Transcribed Image Text:a
g=9.81m/s²
m2
-H=0.2
m1
45%
Figure 3: a pulley with two masses
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