10. Referring to the image to the right, the mass of Block 1 is m1=3.37kg while the mass of Block 2 is m2=8.38kg. The coefficient of kinetic friction between Block 1 and the inclined surface is μk=0.41. The inclined surface is at an angle θ=34.2∘above the horizontal. (a) Using the variables from the problem statement together with the acceleration due to gravity, gg, write an equation for the magnitude of the acceleration of the system. Hint: Based upon the numeric choices, Block 1 will accelerate up the incline while the suspended block, Block 2, accelerates vertically downward. (b) Calculate the magnitude, in meters per squared second, of the system's acceleration.
10. Referring to the image to the right, the mass of Block 1 is m1=3.37kg while the mass of Block 2 is m2=8.38kg. The coefficient of kinetic friction between Block 1 and the inclined surface is μk=0.41. The inclined surface is at an angle θ=34.2∘above the horizontal. (a) Using the variables from the problem statement together with the acceleration due to gravity, gg, write an equation for the magnitude of the acceleration of the system. Hint: Based upon the numeric choices, Block 1 will accelerate up the incline while the suspended block, Block 2, accelerates vertically downward. (b) Calculate the magnitude, in meters per squared second, of the system's acceleration.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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10. Referring to the image to the right, the mass of Block 1 is m1=3.37kg while the mass of Block 2 is m2=8.38kg. The coefficient of kinetic friction between Block 1 and the inclined surface is μk=0.41. The inclined surface is at an angle θ=34.2∘above the horizontal.
(a) Using the variables from the problem statement together with the acceleration due to gravity, gg, write an equation for the magnitude of the acceleration of the system. Hint: Based upon the numeric choices, Block 1 will accelerate up the incline while the suspended block, Block 2, accelerates vertically downward.
(b) Calculate the magnitude, in meters per squared second, of the system's acceleration.
Transcribed Image Text:59:00 AM
0
1
1
2
g,
write an equation for the magnitude of the
suspended block, Block 2, accelerates
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