Gases
A 0.500-mole sample of a gas has a volume of 11.2 liters at 273K. What is the pressure of the gas
1.00atm
At what condition of temperature and pressure would the molecules of a gas have the greatest average kinetic energy?
100°C and 1 atm
Under what conditions does a real gas behave most like an ideal gas?
A high temp and low press
An ideal gas is made up of gas particles that
Are in random motion
A flask containing molecules of gas and a separate flask containing the molecules of gas b are both at the same temperature. Gases a and B must have equal
Average kinetic energy's
As the pressure on a sample of a gas increases at constant temp, the volume of the gas
Decreases
The volume of a sample of hydrogen gas at STP is 1.00 liter. As a temperature decreases, pressure remaining constant, the volume of the sample
Decreases
The volume of a given mass of an ideal gas at constant pressure is
Directly proportional to the Kelvin temp
The volume of a given mass of an ideal gas constant pressure is
Directly proportional to the Kelvin temperature
According to the kinetic theory of gases which assumption is correct
Energy may be transferred between colliding particles
According to the kinetic theory of gases, which assumption is correct?
Energy may be transferred between colliding particles
One reason that a real gas deviates from an ideal gas is that the molecules of the real gas have
Forces of attraction for each other
Which gas will most closely resemble an ideal gas at STP
H2
which gas under high pressure and low temperature has a behavior closest to that of an ideal gas
H2(g)
A sample of gas A in a container at a temperature of 50°c and a pressure of 0.50 atmosphere. Compared to a sample of gas B at STP, gas A had a
Higher temp and a lower press
If the pressure on a given mass of a gas in a closed system is decreased and the temp remains constant, the volume of the gas will
Increase
If the pressure on a given mass of gas in a closed system is decreases and the temp remains constant, the volume of the gas will
Increase
If the pressure on a given mass of gas in a closest them is decreased in the temperature remains constant volume of the gas will
Increase
A 100.-milliliter sample of helium gas is placed in a sealed container of fixed volume. As the temp of the confined gas increases from 10°c to 30°c, the internal pressure
Increases
A sample of gas is at STP. As the pressure decreases and the temp increases, the volume of the gas
Increases
As the space between molecules in a gas sample decreases the tendency for the behavior of this gas to deviate from the ideal gas law's
Increases
When a sample of a gas is heated at constant pressure, The average kinetic energy of its molecules
Increases, and the volume of the gas increases
An assumption of the kinetic theory of gases is that the particles of a gas have
Little attraction for each other and an insignificant volume
A real gas would behave most like an ideal gas under conditions of
Low pressure and high temperature
A real gas would behave most like an ideal gas under conditions of
Low pressure, high temp
Equal volumes of all gases at the same temp and pressure contain an equal # of
Molecules
The volume of a 1.00-mole sample of an ideal gas will decrease when the
Pressure increases and the temp decreases
The volume of a 1.00-mole sample of an ideal gas will decreases when the
Pressure increases and the temp decreases
As a given volume of gas is compressed, the # of molecules
Remains the same
As the pressure on a given sample of a gas increases at constant temp, the mass of the sample
Remains the same
As the pressure on a given sample of a gas increases at constant temperature, the mass of the sample
Remains the same
Real gas behavior deviates from ideal gas behavior BC real gas particles have
Volume and some attraction for each other
Real gas behavior deviates from ideal gas behavior because real gas particles have
Volume and some attraction for each other
The average kinetic energy of the molecules of an ideal gas is directly proportional to the
Volume occupied by individual gas molecules
Which gas is least likely to obey the ideal gas law is very high pressures and very low temperatures
Xe
Which gas is least likely to obey the ideal gas laws at very high pressures and very low temperatures
Xe
