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A rigid, well insulated container, is outfitted with a moveable but frictionless partition that separates two sides but allows conduction between the two sides. One side has 1 kg of air, initially at 500 kPa, 350K and the other side has 3 kg of CO2 initially at 200 kPa, 450K. Determine the final temperature (K) and the final pressure (kPa) of the complete system, assuming constant specific heats.
sometime when riding an elevator or driving up or down a hilly road a persons ears pop as the pressure difference
air enters an adiabatic diffuser at 320 k and 100 kpa with a velocity of 642.9 ms. at the diffuser exit the temperature
air at 30 celcius and 2 mpa flows at steady state in a horizontal pipeline with a velocity of 25ms . it passes through
there are two gears one with radius r and the other with radius 2.2r. the larger hear is subjected to an external
in a tempering process glass plate which is initially at a uniform temperature ti is cooled by suddenly reducing the
Using the ideal gas model with specific heat ratio, k = 1.4, and ignoring potential energy effects, determine (a) the exit velocity, in m/s, and (b) the rate of heat transfer, in kJ per kg of gas flowing through the nozzle.
The heating is to be done in a mixing tank by direct injection of the steam, all of which condenses. Determine the two inlet mass flows needed to meet the desired hot water flow rate.
when the 35-kg cylinder is released from rest the spring is subjected to a tension of 75 n.a determine the speed of the
question 1 a for the reciprocal lattice we know thatexpjg.r 1where g.r 2pit t an integernbsp r lambnc
a can of juice consists of .06 kg of aluminum and .355 liters of liquid. consider the contents to be saturated liquid
water is the working fluid in a cogeneration cycle that generates electricityand provides heat for campus buildings.
the picture below shows a system where superheated vapor enters a container at a flow rate of 90 kgs at 250c. the vapor
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