Which one of the following statements is not correct? An increase in temperature
ID: 1060799 • Letter: W
Question
Which one of the following statements is not correct? An increase in temperature causes an increase in gas pressure because the frequency of molecules colliding with the walls of the container increases. An increase in temperature causes an increase in gas pressure because the average force of molecules colliding with the walls of the container increases. All gases behave like ideal gases at sufficiently low pressures and high temperatures. The PV/nRT ratio for real gases can be greater than 1 because of the attractive forces between molecules. Real gases deviate from ideal gases because of the finite size of the molecules and the attractive and repulsive interactions between molecules.Explanation / Answer
Which one of the following statements is not correct?
a. An increase in temperature causes an increase in gas pressure because the frequency of molecules colliding with the walls of the container increases.-answer
b. An increase in temperature causes an increase in gas pressure because the average force of molecules colliding with the walls of the container increases.
c. All gases behave like ideal gases at sufficiently low pressures and high temperatures.
d. The PV/nRT ratio for real gases can be greater than 1 because of the attractive forces between molecules.
e. Real gases deviate from ideal gases because of the finite size of the molecules and the attractive and repulsive interactions between molecules.
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kinetic-molecular theory (the hypothesis of moving particles) is abridged by the accompanying articulations:
1. Gasses comprise of substantial quantities of particles that are in nonstop, irregular movement. (The word atom is utilized here to assign the littlest molecule of any gas; some gasses, for example, the respectable gasses, comprise of individual iotas.)
2. The volume of the considerable number of particles of the gas is insignificant contrasted with the aggregate volume in which the gas is contained.
3. Appealing and ghastly strengths between gas atoms are insignificant.
4. Vitality can be exchanged between particles amid crashes, yet the normal active vitality of the atoms does not change with time, the length of the temperature of the gas stays consistent. At the end of the day, the impacts are flawlessly flexible.
5. The normal active vitality of the particles is relative to the supreme temperature. At any given temperature the atoms of all gasses have a similar normal motor vitality.
The dynamic atomic hypothesis gives us a comprehension of both weight and temperature at a sub-atomic level. The weight of a gas is created by impacts of the particles with the dividers of the compartment The greatness of the weight is resolved both by how frequently and how "hard" the atoms strike the dividers.
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