Instructions:
Each of the videos below discusses the properties of gases related to the kinetic molecular theory (KMT).
Each video is also accompanied by a set of questions.
The video will stop to display each question, one at a time, just after the video discusses the information that will help you answer the question.
You may watch each video as often as necessary to complete the questions.
The questions will grade automatically, so if you miss a question, reevaluate what the video states about it and try again.
Tip: Read a question or two ahead of time before watching the video so that you know what you are looking for. After you answer them, read another question or two ahead and continue this process. Neither video is extremely long (10 minutes and 5.5 minutes), so if you need to watch them twice, you should have time to do that, as long as you do not waste the time that is provided to you.
C. 5.1 Use the kinetic molecular theory...to explain changes in volume, pressure, moles, and temperature of a gas.
Learning Goals:
I can describe the basic assumptions of the KMT.
I can use the basic assumptions of the KMT to explain the behavior of an ideal gas.
Instructions:
Each of the videos below discusses the properties of gases related to the kinetic molecular theory (KMT).
Each video is also accompanied by a set of questions.
The video will stop to display each question, one at a time, just after the video discusses the information that will help you answer the question.
You may watch each video as often as necessary to complete the questions.
The questions will grade automatically, so if you miss a question, reevaluate what the video states about it and try again.
Tip: Read a question or two ahead of time before watching the video so that you know what you are looking for. After you answer them, read another question or two ahead and continue this process. Neither video is extremely long (10 minutes and 5.5 minutes), so if you need to watch them twice, you should have time to do that, as long as you do not waste the time that is provided to you.
C. 5.1 Use the kinetic molecular theory...to explain changes in volume, pressure, moles, and temperature of a gas.
Learning Goals:
I can describe the basic assumptions of the KMT.
I can use the basic assumptions of the KMT to explain the behavior of an ideal gas.
Kinetic energy is energy that anything has if it is
The more kinetic energy something has, the
Which has more kinetic energy (select all that apply)?
All matter is made up of
Which state of matter's particles are packed the closest together?
Which state of matter's particles are spread out the farthest?
Which state of matter's particles have the most kinetic energy?
Which state of matter's particles have the least kinetic energy?
Why is it useful to have rules regarding the behavior of gas particles?
A gas that follows all of the assumptions of the Kinetic-Molecular Theory (KMT) is known as an
Are ideal gases real gases; do gases always follow all of the rules of the KMT?
Which is greater, the size of gas particles or the space between gas particles?
Gas particles will
In an elastic collision
This is related to elastic collisions - gases do not
Temperature directly affects the average kinetic energy of gas particles.
The higher the temperature, the higher the
The
Which of the following do not exhibit compressibility?