General info: L between two inclines 5.24 theta1: 51.2 degrees theta 2: 40.2 degrees all strings and pulleys are massless and frictionless. Each block has sliding friction with coefficients of: mu1k: 0.357 mu2k: 0.498 questions: a) if M1= 3.43kg what is mass of m2 if the systems motion is that the first mass is pulled uphill with constant velocity. b) evaluate a) when both angles are 90 degrees c) what is the acceleration if both angles go to 0
General info: L between two inclines 5.24 theta1: 51.2 degrees theta 2: 40.2 degrees all strings and pulleys are massless and frictionless. Each block has sliding friction with coefficients of: mu1k: 0.357 mu2k: 0.498 questions: a) if M1= 3.43kg what is mass of m2 if the systems motion is that the first mass is pulled uphill with constant velocity. b) evaluate a) when both angles are 90 degrees c) what is the acceleration if both angles go to 0
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General info:
L between two inclines 5.24
theta1: 51.2 degrees
theta 2: 40.2 degrees
all strings and pulleys are massless and frictionless.
Each block has sliding friction with coefficients of:
mu1k: 0.357
mu2k: 0.498
questions:
a) if M1= 3.43kg what is mass of m2 if the systems motion is that the first mass is pulled uphill with constant velocity.
b) evaluate a) when both angles are 90 degrees
c) what is the acceleration if both angles go to 0
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