According to the kinetic molecular theory, the pressure of a gas in a container will decrease...

Consider the basic postulates of kinetic molecular theory given below. A. The size of a gas...

Consider the basic postulates of kinetic molecular theory given below. A. The size of a gas particle is negligibly small. B. The average kinetic energy of a particle is proportional to its temperature in kelvins. C. The collision of one particle with another (or with the walls of its container) is completely elastic. Which postulate(s) are needed to explain the increase in pressure of a gas with temperature? Consider the basic postulates of kinetic molecular theory given below. A. The...

Which of the following is NOT true in the kinetic molecular theory of ideal gases? The...

Which of the following is NOT true in the kinetic molecular theory of ideal gases? The size of the molecules are negligible compared to the volume of the container The kinetic energy of a sample is proportional to the temperature of the gas. Collisions are elastic (no friction occurs between the molecules when they collide) The pressure of a sample is affected by which gases are present. AND WHY?

According to Kinetic Theory, are the collisions of the gas particles considered elastic or inelastic collisions?...

According to Kinetic Theory, are the collisions of the gas particles considered elastic or inelastic collisions? In general, how does increasing or decreasing the temperature affect the gas particles? In general, how does increasing or decreasing the volume affect the pressure? Which Gas Law describes this relationship? In general, how does increasing or decreasing the temperature affect the affect the volume? Which Gas Law describes this relationship? In general, how does increasing or decreasing the temperature affect the pressure? Which...

The title of the chapter is "The Kinetic Theory of Gases" 1. In terms of molecular...

The title of the chapter is "The Kinetic Theory of Gases" 1. In terms of molecular motion, explain why increasing the temperature of a gas also increases its pressure if the volume is held constant. 2. In terms of molecular motion, explain how heat conduction takes place in a metallic rod 3. In terms of molecular motion, explain why evaporation is considered a cooling process

If the number of moles of an ideal gas in a firm container doubles while volume...

If the number of moles of an ideal gas in a firm container doubles while volume and temperature remain constant … a. pressure doubles b. pressure quadruple c. pressure remains constant d. pressure is reduced to half e. pressure is reduced to a quarter    a     b     c     d     e incorrect IncorrectQuestion 2 0 / 1 pts There are 3 balloons sitting next to each other, each of a different size. What is in the biggest...

Decide which of the following statements are true and which are false, concerning the kinetic molecular...

Decide which of the following statements are true and which are false, concerning the kinetic molecular theory. True False  The particles are so small compared with the distances between them that the volume of the individual particles can be assumed to be zero. True False  The molecules in a real gas have finite volumes and do exert forces on each other, thus real gases do not conform to some of the assumptions of an ideal gas as stated by the kinetic molecular...

#1 How does kinetic molecular theory explain Dalton's law? Select the correct answer below: Question options:...

#1 How does kinetic molecular theory explain Dalton's law? Select the correct answer below: Question options: Gas particles collide with the container with the same frequency regardless of whether other gases are present. Gas particles are different sizes and do not contribute equally to the overall pressure, based on size. Gas particles contribute to the overall pressure based on their molar masses. Gas particles have inelastic collisions, based on their individual identity. Question #2 How does kinetic molecular theory explain...

Which of the following is true about a 0.200 mol sample of nitrogen gas and a...

Which of the following is true about a 0.200 mol sample of nitrogen gas and a 0.200 mol sample of argon gas that are at 1.20 atm and an initial temperature 55.0 °C when the temperature changes to 400 K? Assume constant volume for the container under both of these temperature conditions. Group of answer choices None of these choices is correct The density of both gases will increase. There will be more collisions between the gas molecules and the...

1)Which of the following is false?      -The hotter the gas, the higher the pressure.    -The colder...

1)Which of the following is false?      -The hotter the gas, the higher the pressure.    -The colder the gas, the lower the pressure.    -The more gas inside a container, the higher the pressure.    -The less gas inside a container, the higher the pressure. 2)Why doesn't atmospheric pressure crush a can?      -Because the volume of the can is always constant.    -There is no gas in the can.    -Because atmospheric pressure is too weak.    -The gas in the can is pushing back (against...

According to Boyle's law, the pressure exerted by a constant number of gas molecules in a...

According to Boyle's law, the pressure exerted by a constant number of gas molecules in a container is inversely proportional to the volume of the container. Therefore, increasing the volume of the container will cause a decrease in its pressure. True or False?