Use kinetic molecular theory to explain the relationship between: 1. Pressure and volume of a confined...
I need a written explanation about each relationship. Use kinetic molecular theory to explain the relationship between: 1. Pressure and volume of a confined gas 2. Volume and temperature of a confined gas 3. Pressure and temperature of a confined gas 4. Moles and volume of a gas
Use kinetic molecular theory to explain why for a given amount of gas, at constant volume, the pressure of the gas increases when its temperature increases?
1a. How does kinetic molecular theory explain why pressure is directly propirtional to temperature at a fixed volume? 1b. Explain Boyle’s Law using the Kinetic Molecular Theory. 1c. A hot air balloonist is rising too fast for her liking. should she increase or decrease the temperature of the gas in the balloon? 1d. Could the pilot of the balloonist from (1c) reduce her rate of ascent by allowing some gas to leak out of the balloon?
Describe the relationship between pressure and volume in Boyle's Law. Explain this relationship on a molecular level. Describe the relationship between temperature and volume in Charle's Law. Explain this relationship on a molecular level.
Kinetic Molecular Theory (KMT) a. The KMT is a model we use to explain gas behavior. According to the KMT, what causes the pressure when a gas is held in a sealed container? b. Increasing the temperature will increase the pressure of a gas in a sealed container, assuming the volume remains constant. Explain why this is the case, according to the KMT?
6. Use the kinetic molecular theory of gases to predict what would happen to a closed sample of a gas whose temperature increased while its volume decreased. A) Its pressure would decrease. B) Its pressure would increase. C) Its pressure would hold constant. D) The number of moles of the gas would decrease. E) The average kinetic energy of the molecules of the gas would decrease.
Question 2 of 16 According to the Kinetic Molecular Theory A) The volume of the gas particles will impact the volume available to the gas. B) Gas particles exert pressure by colliding with one another C) The gas particles are moving in circular motions throughout the container. D) The average kinetic energy is proportional to the temperature of the system. MacBook Air 000
Which of the following is the correct relationship between pressure and moles of gas, according to the kinetic molecular theory, at constant temperature and volume? Select the correct answer below: A) They don't depend on each other. B) They can be both directly and inversely proportional to each other depending on the circumstances. C) They are directly proportional. D) They are inversely proportional. I was thinking C) directly proportional because as you increase the number of moles of gas, the...
8:15 Question 2 of 16 Submit According to the Kinetic Molecular Theory A) The volume of the gas particles will impact the volume available to the gas. B) Gas particles exert pressure by colliding with one another C) The gas particles are moving in circular motions throughout the container. D) The average kinetic energy is proportional to the temperature of the system.
The Kinetic Molecular Theory of Gases Concept Check Sketch a graph of: III. Volume vs. temperature (K) at constant pressure and moles.