Kinetic Molecular Theory (KMT) a. The KMT is a model we use to explain gas behavior....
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?
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
In the kinetic molecular theory of gas behavior, the assumption is made that gas molecules O occasionally come to rest. O are attracted to each other by strong forces O move with a kinetic energy equal to their centigrade temperature. O move rapidly in random directions. O are close together in their container Submit Request Answer Which measurement describes the pressure of a gas? O 2.5L O 315 K O 1.2 g/L O 725 mmHg O 0.45 moles
Part A In the kinetic molecular theory of gas behavior, the assumption is made that gas molecules O occasionally come to rest. O are attracted to each other by strong forces. O move with a kinetic energy equal to their centigrade temperature. O move rapidly in random directions O are close together in their container. Submit Which measurement describes the pressure of a gas? O 25L O 315 K O 1.2 g/L O 725 mmHg O 0.45 moles
The kinetic molecular theory (KMT) is a model that... 1. describes the rate of a reaction. 2. attempts to explain the properties of an ideal gas. 3. describes the shapes of molecules. 4. models electrons in a bond as localized.
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
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?
According to the kinetic molecular theory, which of the following
is NOT true
this is the question options
n it any temperature the vapor pressure of acetic acid is lower than that of water. (O) Acetic acid is more volatile than water. ( Both A and B are correct. O Neither A nor B is correct. n Gas particles are in constant random motion and move in straight lines until they collide with another gas particle. The volume of gas...
The kinetic molecular theory of gases predicts pressure to increase as the temperature of a gas increases because: I. the average kinetic energy of the gas molecules increases. II. gas molecules collide more frequently with the container walls. III. there are more molecules per unit volume after raising the temperature. IV. the elasticity of the molecules increases. V. there are less molecules per unit volume after raising the temperature. a. I and II b. I and III c. II and...
Critical Thinking (10 points each) 1. Based upon what you know about the Kinetic Molecular Theory (KMT), how do you think increasing the temperature will affect the motions of gaseous particles? Why does changing the temperature affect the motion the way it does? 2. Using your knowledge of the KMT, explain gas behavior in the following scenario. A scented Yankee candle is lit and allowed to burn for a significant amount of time in the living room. Someone comes downstairs...