Post on 03-Jan-2016
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Test 2 Starts Friday Oct 18 Ends Monday Oct 21 Late day Tuesday Oct 22
16 Multiple Choice 4 Free Response Give yourself plenty of time!
You heat a disc with a hole in it. Will the hole expand or shrink,
or stay the same?
A. ExpandB. ShrinkC. Stay the same
Demo: Heat ring—does ball still fit?
In an ideal gas, if you double the volume of the container, while keeping the temperature and the number of molecules the same, the pressure in the gas
A. DecreasesB. Stays the
sameC. Increases
Suppose we have two jars of gas, one of helium and one of oxygen. If both jars have the same volume, and the two gases are at the same pressure and temperature, which jar contains the greatest number of molecules?A. Jar of helium
B. Jar of oxygenC. Both jars contain
the same number.Consider both gases to obey the ideal gas law. Also note that the mass of an oxygen atom is greater than the mass of a helium atom.
Cwater=4186 J/kg oC Cgold=129 J/kg oCWhich heats up faster using the same heat source?
A. 1 kg waterB. 1 kg goldC. They both heat up at
the same rate.
TmcQ Q is energy transferred
Hard WorkToday, many have forgotten the value of work. Some falsely believe that the highest goal in life is to achieve a condition in which one no longer needs to work. President David O. McKay (1873-1970) was fond of saying, "Let us realize that the privilege to work is a gift, that power to work is a blessing, that love of work is success."
Work is not a matter of economic need alone; it is a spiritual necessity.
-- BISHOP H. DAVID BURTON
The path shown below is adiabatic (Q = 0). The change in internal energy of the gas is
1. Positive2. Negative3. zero
P
V
In the path shown below, the gas returns to its original state. The net change in internal energy is
P
V
1. Positive2. negative3. zero
Start with 3 moles of an ideal monatomic gas at 20o and 1 atm. Compress to half of it’s volume isothermally. What the heat that enters, the work done on the gas, the change in internal energy, and the change in entropy?
Start with 3 moles of an ideal monatomic gas at 20o and 1 atm. Compress to half of it’s volume adiabatically. What the heat that enters, the work done on the gas, the change in internal energy, and the change in entropy?
Start with 3 moles of an ideal monatomic gas at 20o and 1 atm. I double the pressure isovolumetrically. What the heat that enters, the work done on the gas, the change in internal energy, and the change in entropy?
In the path shown below, the gas returns to its original state. The heat put into the gas is
P
V
A. PositiveB. negativeC. zero
One of the P-V curves below is for an isothermal process. The other
is for an adiabatic process. Which is adiabatic?
P
V
A
B
Two gases in separate containers have equal volumes, equal numbers of molecules, and the same internal
energy Eint. However, one gas is monatomic and the other is
diatomic. The pressure of the diatomic gas is
A. Less than that of the monatomic gas.
B. The same of that of the monatomic gas.
C. Greater than that of the monatomic gas.