When rats become upset:
A) they go limp
B) their tails move back and forth
C) the hair on the body relaxes
D) their bodies remain perfectly still
B
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All of the following were legal questions raised as a result of the new market economy EXCEPT
A. how tightly should patents protect inventions? B. should the government regulate monopolies? C. can a democratic government still support slavery? D. who should own these new technologies? E. who should own the new transportation network?
The maximum temperature at which soft soldering is done is ____.
A. 212°F B. 400°F C. 600°F D. 842°F
A) What is the molar enthalpy of saturated liquid at P=1 bar? B) What is the temperature of the 0.8 mol/sec of low-pressure vapor when it leaves the heat exchanger that is described in step 4? C) One of the compressors (step 5) takes in 1 mol/sec of vapor at P=3 bar and T=250 K, and emits it at P=10 bar and T=350 K. (These are the actual conditions in and out of the actual compressor.) What is the rate at which work is added to this compressor? D) One of the heat exchangers takes in 1 mol/sec of gas at P=3 bar and T=330 K, and emits it at P=3 bar and T=250 K. How much heat is removed in this heat exchanger?
1. A compound is very volatile and can only be liquefied at extremely low temperatures. At pressures of 3 bar and below, it can be modeled as an ideal gas with a constant Cp*=13R. The following list contains some additional data regarding the compound:
Boiling temperature at 1 bar = 125 K
Molar enthalpy of saturated vapor at 1 bar: HV = 100 kJ/mol
Critical Pressure = 8 bar
Molar enthalpy of supercritical fluid at P=10 bar and various temperatures:
A steady-state Linde Liquefaction process for this compound works as follows:
1. One mole per second of supercritical fluid at P=10 bar and T=250 K enters a counter-current heat exchanger, where its temperature is lowered to 150 K.
2. The supercritical fluid leaving step 1 enters a flash chamber where it undergoes an adiabatic (Joule-Thompson) expansion to P=1 bar, and 20% of it liquefies.
3. The 0.2 mol/sec of saturated liquid at P=1 bar is removed as product.
4. The 0.8 mol/sec of saturated vapor at P=1 bar is returned to the heat exchanger of step 1, where it acts as the coolant for the entering supercritical fluid.
5. The vapor from step 4 is mixed with 0.2 mol/sec of fresh feed, and the mixed stream enters a series of compressors and heat exchangers which return the stream to 10 bar and 250 K.
A typical transmission oil filter change will occur at:
a. 100 hours b. 250 hours c. 500 hours d. 2000 hours