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1. Stationary Blocks M M v(r) Figure 1: Constant incline with two-mass system Mass 1 (M =90kg) and Mass 2 (M = 80kg) are
1. Stationary Blocks M M v(r) Figure 1: Constant incline with two-mass system Mass 1 (M =90kg) and Mass 2 (M = 80kg) are both free to move along a friction- less incline. ( = 0.262rad) Water is pressurized to a pressure of 400kPa expelled through Mass 2 through a circular cross-section of radius R = 0.03m with a velocity profile defined by the relationship: v(r) = Umar * (1 (77)) (1) What is the quantity of max that will hold the two mass system stationary on the incline? You can assume that mass of water leaving Mass 2 is negligible compared to its total mass. Assume the masses are surrounded by air at STP.
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Numerical Methods For Engineers
Authors: Steven C. Chapra, Raymond P. Canale
5th Edition
978-0071244299, 0071244298
