X Y show all your steps and write your final answers in a sentence. Please use g = 9.80 for each of these questions to increase precision. Therefore all answers will have 3 significant digits. There is no friction. The mass of X is 7.34 kg and the mass of Y is 1.82 kg. The incline of the ramp is 44.7 degrees. a) Calculate the acceleration of the system. Include the direction. b) Calculate the tension in the rope connecting the X and Y blocks. c) Calculate the new mass of block Y, keeping block X the same, that acceleration is zero. d) If there was friction, then there would be a range of masses block Y can be,such that the acceleration would be zero, not just one number. Explain why this is the case.
X Y show all your steps and write your final answers in a sentence. Please use g = 9.80 for each of these questions to increase precision. Therefore all answers will have 3 significant digits. There is no friction. The mass of X is 7.34 kg and the mass of Y is 1.82 kg. The incline of the ramp is 44.7 degrees. a) Calculate the acceleration of the system. Include the direction. b) Calculate the tension in the rope connecting the X and Y blocks. c) Calculate the new mass of block Y, keeping block X the same, that acceleration is zero. d) If there was friction, then there would be a range of masses block Y can be,such that the acceleration would be zero, not just one number. Explain why this is the case.
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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show all your steps and write your final answers in a sentence.
Please use g = 9.80 for each of these questions to increase precision.
Therefore all answers will have 3 significant digits.
There is no friction.
The mass of X is 7.34 kg and the mass of Y is 1.82 kg.
The incline of the ramp is 44.7 degrees.
a) Calculate the acceleration of the system. Include the direction.
b) Calculate the tension in the rope connecting the X and Y blocks.
c) Calculate the new mass of block Y, keeping block X the same, that acceleration is zero.
d) If there was friction, then there would be a range of masses block Y can be,such that the
acceleration would be zero, not just one number.
Explain why this is the case.
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Ok since thats the case I ask you another question can you answer d)
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