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The image for this problem can be found through this link : https://imgur.com/0qkeHZH Please show all work/formulas so that I may understand this problem for the future. Thank you very much! :)The portion of a race track between points A (corresponding to x=0) and B is part of a parabolic curve described by the equation = k(x)^2, where k is a constant. Let g denote the acceleration due to gravity. Determine such that a car driving at constant speed v0= 158 mph experiences at A an acceleration with magnitude equal to 1.5g.
The bending moment M at position x m from the end of a simply supported beam of lenght L m carrying a uniformy distributed load of w Kn m-1 is given by
calculate the static thrust of the turbojet engine having mass flow 88lbmsec the ratio of air and fuel mass flowing
question in an em wave traveling north the e field oscillates vertically and has a frequency of 85.0 khz and an rms
a package is dropped from the plane which is flying with a constant horizontal velocity of va150fts. determine the
Given that the nominal diameter (per print) is 15.00mm +/-0.10mm, what can be said about the expected defect rate?
The 25-kg bar has a centre of mass at G.If it is supported by a smooth peg at C,a roller at A and cord AB, determine the reactions at these supports.
a large number of concrete slabs each 0.6 m in length are lined up with a spacing of 0.1nbspmm between them. the
Advanced Stress Analysis
A body having a mass of 46 kg rests on a horizontal planse for which the coefficiant of friction f = 0.4. A force P acts ofn the body at an angle of 20 degrees with the horizontal. Find its magnitude for impending motion.
a brass nonmagnetic block a and a steel magnet b are in equilibrium in a brass tube under the magnetic repelling force
A train accelerates uniformly along a straight track and passes three trackside markers. The distance between the first two markers is equal to 0.25 km and between the second and third the distance is 0.4km
is there any difference between the stresses measured at the top of the beam and at the same location on the bottom of the beam?
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