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Particle P moves in the x-y plane on the path described by y(x)=2(4x^2+12)^.5 where x + y are given in feet. If x=2ft and dx/dt=-10ft/s and d/dt(dx/dt)=0, what is the acceleration of the Particle P in vector components?
Determining the largest couple that can be applied to a beam in pure bending. A beam of cross section shown is extruded from an aluminum alloy for which σy = 310 MPa and σu = 480 MPa.
Determine the Biot number in order to support the lumped formulation. Solve the differential equation to find an expression for temperature as a function of time.
Couette Flow Velocity Distribution, Using the log law, determine the velocity distribution for Couette flow between parallel plates a distance h apart, with U = the velocity of the top plate.
a small 110-g particle is projected with a horizontal velocity of 2ms into a the top a of the smooth circular guide
Determine the ideal launch vehicle that can put this orbiter into the parking orbit. (hint: you do not have to consider the Sun in this problem. Only SOI of the Earth and the Moon)
question 1 it is observed that snow lies stably on roofs with a slope of less than 24deg but that it slides off roofs
find a) velocity distribution in the film b) shear stress distribution c) volumetric rate of flow d) average velocity. assume the flow is steady and laminar.
what is the maximal attainable speed of a bullet in m/s?
Calculate the heat transfer per kilogram of air between sections (1) and (2), and the stagnation pressure at section (2).
A heat pump is used to maintain a house at a constant temperature of 23 °C. The house is losing heat to the outside air through the walls and the windows at a rate of 60,000 kJ/hr while the energy generated within the house from people
Air enters an adiabatic duct of L/D = 40 at V1 = 170 m/s and T1 = 300 K. The flow at the exit is choked. What is the average friction factor in the duct?
(a) Find the rate of heat transfer (kW) to the water. (b) Draw a schematic of the system. (c) Determine the air outlet temperature (°C)
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