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The load is being lifted upward at a constant rate of 9 m/s relative to the crane boom AB. At the instant shown, the boom is rotating about the vertical axis at a constant rate of w1=4rad/sec, and the trolley T is moving outward along the boom at a constant rate of vt = 2 m/s. Furthermore, at this same instant the relocatable arm supporting the load is vertical and swinging in the y-z plane at an angular rate of 5 rad/s, with an increase in the rate of swing of 7 rad/s2. Determine the velocity and acceleration of the center G of the load at this instant,i.e., when s=4m and h=3 m.
Estimate the infiltration flow rate if the window is partially open (assuming the window open area is 2 meter squared).
A Pitot-static probe connected to a water manometer is used to measure the velocity of air. If the de?ection (thevertical distance between the ?uid levels in the two arms) is 7.3 cm, determine the air velocity. Take the density of air to be 1.25 k..
Determine the power generated by the motor M at this instant if it operates with an efficiency of epsilon = 0.8.
a velocity vector v is deirectred from point A (0,10,-8) toward point B (24,-18,0), WHERE THE COORDINATES are in feet. find the rectangular representation of v, given that its magnitude is 12 ft/s
a large tower is to be supported by a series of steel wires.it is estimated that the load on each wire will be 11100N. determine the minimum required wire diameter assuming a factor of safety of 2 and a yield strength of 1030MPa.
Evaluate the valve closure to achieve a water exit velocity
The hull of a boat has a volume of 150 m3, and the total mass of the boat when empty is 8560 kg. Determine how much load this boat can carry without sinking (a) in a lake and (b) in seawater with specific gravity of 1.03.
Module FEA - FINITE ELEMENT ANALYSIS , Provide answers to all questions. Note that assignment part 2 carries 60% of the marks for the course.
question 1consider the figure below which shows the energy-band splitting of silicon. if the equilibrium lattice
Coefficient Reaction, The removal efficiency of a reactor tank is 73-percent and its residence time is 28.5s
determine the number of vehicles needed to satisfy the indicated deliveries per hour? Assume that availability = 0.90.
IN FE analysis, What is effect of modeling a plane stress as plane strain and vice a versa?
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