7.3 Thermal Inversion/7.4 Atmospheric CO2 & PM

Last updated 9 months ago

11 questions

7.3 Thermal Inversion/7.4 Atmospheric CO2 & PM

Last updated 9 months ago

11 questions

Question 1

Answer the question using the demonstration on the video above.

Watch the video below for questions 2-4.

Question 2

When did the London Fog become a deadly?

When a warm layer of air trapped a cooler layer

When the layers of air were the same temperature

When a cool layer of air trapped a warmer layer

Use the slides below for questions 5-9

Question 5

Use the PPT to answer the question.

Question 6

Draw a thermal inversion

Question 7

Use the PPT to answer the question.

The model below represents two systems. One is a normal scenario and one is a thermal inversion.

Question 8

Match the picture with the description of the accurate phenomena

Normal
Thermal Inversion

Question 9

Looking at the model above, identify which model represents a thermal inversion and explain why.

The diagram below shows the major sources of carbon dioxide, both anthropogenic and natural.

Question 10

10.

Using the diagram above, select the natural sources of CO2.
(Select 3 correct answers)

Burning fossil fuels

Volcanoes

Respiration

Oceans

Deforestation

The diagram below shows the major sources of particulate matter, both anthropogenic and natural.

Question 11

11.

Using the diagram above, select the natural sources of particulate matter.
(Select 3 correct answers)

Commercial cooking

Animal waste

Combustion from stationary sources

Wood smoke

Wildfires

Dust

Industrial, commericial, and refineries

Cars and trucks

Question 1

Answer the question using the demonstration on the video above.

Watch the video below for questions 2-4.

Question 2

When did the London Fog become a deadly?

When a warm layer of air trapped a cooler layer

When the layers of air were the same temperature

When a cool layer of air trapped a warmer layer

Question 3

Identify the human health impacts of the deadly London smog.

Question 4

During a thermal inversion

Temperatures increase with increasing altitude

Temperatures decrease with increasing altitude

A situation in which a relatively warm layer of air at mid-altitude covers a layer of cold, dense air below

Use the slides below for questions 5-9

Question 5

Use the PPT to answer the question.

Question 6

Draw a thermal inversion

Question 7

Use the PPT to answer the question.

The model below represents two systems. One is a normal scenario and one is a thermal inversion.

Question 8

Match the picture with the description of the accurate phenomena

Normal
Thermal Inversion

Question 9

Looking at the model above, identify which model represents a thermal inversion and explain why.

The diagram below shows the major sources of carbon dioxide, both anthropogenic and natural.

Question 10

10.

Using the diagram above, select the natural sources of CO2.
(Select 3 correct answers)

Burning fossil fuels

Volcanoes

Respiration

Oceans

Deforestation

The diagram below shows the major sources of particulate matter, both anthropogenic and natural.

Question 11

11.

Using the diagram above, select the natural sources of particulate matter.
(Select 3 correct answers)

Commercial cooking

Animal waste

Combustion from stationary sources

Wood smoke

Wildfires

Dust

Industrial, commericial, and refineries

Cars and trucks

Question 3

Identify the human health impacts of the deadly London smog.

Question 4

During a thermal inversion

Temperatures increase with increasing altitude

Temperatures decrease with increasing altitude

A situation in which a relatively warm layer of air at mid-altitude covers a layer of cold, dense air below

7.3 Thermal Inversion/7.4 Atmospheric CO2 & PM

7.3 Thermal Inversion/7.4 Atmospheric CO2 & PM

Answer the question using the demonstration on the video above.

Watch the video below for questions 2-4.

When did the London Fog become a deadly?

Use the slides below for questions 5-9

Use the PPT to answer the question.

Draw a thermal inversion

Use the PPT to answer the question.

Match the picture with the description of the accurate phenomena

Looking at the model above, identify which model represents a thermal inversion and explain why.

Using the diagram above, select the natural sources of CO2.(Select 3 correct answers)

(Select 3 correct answers)

Using the diagram above, select the natural sources of particulate matter.(Select 3 correct answers)

(Select 3 correct answers)

Answer the question using the demonstration on the video above.

Watch the video below for questions 2-4.

When did the London Fog become a deadly?

Identify the human health impacts of the deadly London smog.

During a thermal inversion

Use the slides below for questions 5-9

Use the PPT to answer the question.

Draw a thermal inversion

Use the PPT to answer the question.

Match the picture with the description of the accurate phenomena

Looking at the model above, identify which model represents a thermal inversion and explain why.

Using the diagram above, select the natural sources of CO2.(Select 3 correct answers)

(Select 3 correct answers)

Using the diagram above, select the natural sources of particulate matter.(Select 3 correct answers)

(Select 3 correct answers)

Identify the human health impacts of the deadly London smog.

During a thermal inversion

Using the diagram above, select the natural sources of CO2.
(Select 3 correct answers)

Using the diagram above, select the natural sources of particulate matter.
(Select 3 correct answers)

Using the diagram above, select the natural sources of CO2.
(Select 3 correct answers)

Using the diagram above, select the natural sources of particulate matter.
(Select 3 correct answers)