- A 1.31 mol sample of Kr gas is confined in a 32.4 liter container at...
-
A 1.31 mol sample of Kr gas is
confined in a 32.4 liter container at
28.0 °C.
If the temperature of the gas sample is raised to
43.1 °C holding the volume constant, the
average molecular speed will
a) not enough information to answer the question
b) decrease
c)remain the same
d) increase
-Which of the following statements is true for real gases?
Choose all that apply.
Attractive forces between molecules cause a decrease in pressure compared to the ideal gas.
Attractive forces between molecules cause an increase in pressure compared to the ideal gas.
As attractive forces between molecules increase, deviations from ideal behavior become more apparent at relatively low temperatures.
As attractive forces between molecules increase, deviations from ideal behavior become more apparent at relatively high temperatures.
Homework Answers
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-
A 1.31 mol sample of Kr gas is
confined in a 32.4 liter container at...
Which of the following statements is true for real gases? Choose all that apply Attractive forces between molecul...
Which of the following statements is true for real gases? Choose all that apply Attractive forces between molecules cause a decrease in pressure compared to the ideal gas. Attractive forces between molecules cause an increase in pressure compared to the ideal gas. As molecules increase in size, deviations from ideal behavior become more apparent at relatively low pressures. As attractive forces between molecules increase, deviations from ideal behavior become more apparent at relatively low temperatures. Compute the root-mean-square speed of...
Which of the following statements is true tor real gases? Choose all that apply. As molecules...
Which of the following statements is true tor real gases? Choose all that apply. As molecules increase in size, deviations from ideal behavior become more apparent at relatively high pressures. Attractive forces between molecules cause a decrease in pressure compared to the ideal gas. The volume occupied by the molecules can cause a decrease in pressure compared to the ideal gas. As molecules increase in size. deviations from ideal behavior become more apparent at relatively low pressures.
Part A) Which of the following statements is true for ideal gases, but is not always...
Part A) Which of the following statements is true for ideal gases, but is not always true for real gases? Choose all that apply. Molecules are in constant random motion. Pressure is caused by molecule-wall collisions. The size of the molecules is unimportant compared to the distances between them. The volume occupied by the molecules is negligible compared to the volume of the container. Part B) Which of the following statements is true for real gases? Choose all that apply....
Which of the following statements is true for real gases? Choose all that apply. As molecules...
Which of the following statements is true for real gases? Choose all that apply. As molecules increase in size, deviations from ideal behavior become more apparent at relatively low pressures. The volume occupied by the molecules can cause a decrease in pressure compared to the ideal gas. As molecules increase in size, deviations from ideal behavior become more apparent at relatively high pressures. The volume occupied by the molecules can cause an increase in pressure compared to the ideal gas.
A 1.72 mol sample of Kr gas is confined in a 40.4 liter container at 13.2 °C. If the amount of g...
A 1.72 mol sample of Kr gas is confined in a 40.4 liter container at 13.2 °C. If the amount of gas is decreased to 0.860 mol, holding the volume and temperature constant, the pressure will decrease because: Choose all that apply. As the number of molecule-wall collisions increases, the force per collision decreases. With fewer molecules per unit volume, the molecules hit the walls of the container less often. With lower average speeds, on average the molecules hit the...
Part A) A 1.37 mol sample of Xe gas is confined in a 32.7 liter container at 18.1 °C. If the temperature of the gas sam...
Part A) A 1.37 mol sample of Xe gas is confined in a 32.7 liter container at 18.1 °C. If the temperature of the gas sample is raised to 41.5 °C holding the volume constant, the average kinetic energy will remain the same decrease not enough information to answer the question increase Part B) A 1.24 mol sample of O2 gas is confined in a 29.2 liter container at 13.5 °C. If the temperature of the gas sample is lowered...
Question 1 (a) Use the ideal gas equation to calculate the pressure (in atm) of 2.40 mol of krypton (Kr) at 455 K in a 4.50 L vessel. (b) In a 16.3 L vessel, the pressure of 2.40 mol of Kr at 455 K...
Question 1 (a) Use the ideal gas equation to calculate the pressure (in atm) of 2.40 mol of krypton (Kr) at 455 K in a 4.50 L vessel. (b) In a 16.3 L vessel, the pressure of 2.40 mol of Kr at 455 K is 5.50 atm when calculated using the ideal gas equation and 5.40 atm when calculated using the van der waals equation of state (Note: a=5.121 and b = 0.0106). Why is the percent difference in the...
A 1.16 mol sample of Xe gas is confined in a 27.6 liter container at 17.1...
A 1.16 mol sample of Xe gas is confined in a 27.6 liter container at 17.1 °C If the amount of gas is increased to 1.74 mol, holding the volume and temperature constant, the pressure will increase because: Choose all that apply. 一with more molecules per unit volume, the molecules hit the walls of the container more often. O With higher average speeds, on average the molecules hit the walls of the container with more force. With more molecules in...
A sample of argon gas and a sample of xenon gas at low temperature do not...
A sample of argon gas and a sample of xenon gas at low temperature do not exhibit ideal gas behavior. Which gas deviates more from ideal gas behavior, and what is the major cause of the deviation? Greater Deviation Cause of Deviation (A) Argon Attractive forces between atoms (B) Argon Volume of the atoms (C) Argon Mass of the atoms (D) Xenon Attractive forces between atoms (E) Xenon Mass of the atoms
Use the van der Waals equation of state to calculate the pressure of 2.10 mol of...
Use the van der Waals equation of state to calculate the pressure of 2.10 mol of Kr at 471 K in a 3.70L vessel. Van der Waals constants can be found in this table. Number P- 2.004 atm Use the ideal gas equation to calculate the pressure under the same conditions. Number P= 21.947 atm In a 15.5 L vessel, the pressure of 2.10 mol of Kr at 471 K is 5.24 atm when calculated using the ideal gas equation...
Which of the following statements is true for real gases? Choose all that apply Attractive forces between molecules cause a decrease in pressure compared to the ideal gas. Attractive forces between molecules cause an increase in pressure compared to the ideal gas. As molecules increase in size, deviations from ideal behavior become more apparent at relatively low pressures. As attractive forces between molecules increase, deviations from ideal behavior become more apparent at relatively low temperatures. Compute the root-mean-square speed of...
Which of the following statements is true tor real gases? Choose all that apply. As molecules increase in size, deviations from ideal behavior become more apparent at relatively high pressures. Attractive forces between molecules cause a decrease in pressure compared to the ideal gas. The volume occupied by the molecules can cause a decrease in pressure compared to the ideal gas. As molecules increase in size. deviations from ideal behavior become more apparent at relatively low pressures.
Which of the following statements is true for real gases? Choose all that apply. As molecules increase in size, deviations from ideal behavior become more apparent at relatively low pressures. The volume occupied by the molecules can cause a decrease in pressure compared to the ideal gas. As molecules increase in size, deviations from ideal behavior become more apparent at relatively high pressures. The volume occupied by the molecules can cause an increase in pressure compared to the ideal gas.
A 1.16 mol sample of Xe gas is confined in a 27.6 liter container at 17.1 °C If the amount of gas is increased to 1.74 mol, holding the volume and temperature constant, the pressure will increase because: Choose all that apply. 一with more molecules per unit volume, the molecules hit the walls of the container more often. O With higher average speeds, on average the molecules hit the walls of the container with more force. With more molecules in...
Use the van der Waals equation of state to calculate the pressure of 2.10 mol of Kr at 471 K in a 3.70L vessel. Van der Waals constants can be found in this table. Number P- 2.004 atm Use the ideal gas equation to calculate the pressure under the same conditions. Number P= 21.947 atm In a 15.5 L vessel, the pressure of 2.10 mol of Kr at 471 K is 5.24 atm when calculated using the ideal gas equation...
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