C.5 Environmental impact—global warming

When combusted, all three fuels can release carbon dioxide, a greenhouse gas, as well as particulates. Contrast how carbon dioxide and particulates interact with sunlight.

When combusted, all three fuels can release carbon dioxide, a greenhouse gas, as well as particulates. Contrast how carbon dioxide and particulates interact with sunlight.

When combusted, all three fuels can release carbon dioxide, a greenhouse gas, as well as particulates. Contrast how carbon dioxide and particulates interact with sunlight.

Methane is another greenhouse gas. Contrast the reasons why methane and carbon dioxide are considered significant greenhouse gases.

Methane is another greenhouse gas. Contrast the reasons why methane and carbon dioxide are considered significant greenhouse gases.

Methane is another greenhouse gas. Contrast the reasons why methane and carbon dioxide are considered significant greenhouse gases.

The concentrations of oxygen and nitrogen in the atmosphere are much greater than those of greenhouse gases. Outline why these gases do not absorb infrared radiation.

The concentrations of oxygen and nitrogen in the atmosphere are much greater than those of greenhouse gases. Outline why these gases do not absorb infrared radiation.

The concentrations of oxygen and nitrogen in the atmosphere are much greater than those of greenhouse gases. Outline why these gases do not absorb infrared radiation.

Explain the molecular mechanism by which carbon dioxide acts as a greenhouse gas.

Explain the molecular mechanism by which carbon dioxide acts as a greenhouse gas.

Explain the molecular mechanism by which carbon dioxide acts as a greenhouse gas.

Compare methane’s atmospheric abundance and greenhouse effect to that of carbon dioxide.

Compare methane’s atmospheric abundance and greenhouse effect to that of carbon dioxide.

Compare methane’s atmospheric abundance and greenhouse effect to that of carbon dioxide.

Explain how methane absorbs infrared (IR) radiation by referring to its molecular geometry and dipole moment.

Explain how methane absorbs infrared (IR) radiation by referring to its molecular geometry and dipole moment.

Explain how methane absorbs infrared (IR) radiation by referring to its molecular geometry and dipole moment.

Describe the effect of infrared (IR) radiation on carbon dioxide molecules.

Describe the effect of infrared (IR) radiation on carbon dioxide molecules.

Describe the effect of infrared (IR) radiation on carbon dioxide molecules.

Compare methane’s atmospheric abundance and greenhouse effect to that of carbon dioxide.

Compare methane’s atmospheric abundance and greenhouse effect to that of carbon dioxide.

Compare methane’s atmospheric abundance and greenhouse effect to that of carbon dioxide.

Explain how methane absorbs infrared (IR) radiation by referring to its molecular geometry and dipole moment.

Explain how methane absorbs infrared (IR) radiation by referring to its molecular geometry and dipole moment.

Explain how methane absorbs infrared (IR) radiation by referring to its molecular geometry and dipole moment.

Outline one approach to controlling industrial emissions of carbon dioxide.

Outline one approach to controlling industrial emissions of carbon dioxide.

Outline one approach to controlling industrial emissions of carbon dioxide.

State one greenhouse gas, other than carbon dioxide.

State one greenhouse gas, other than carbon dioxide.

State one greenhouse gas, other than carbon dioxide.

Describe the effect of infrared (IR) radiation on carbon dioxide molecules.

Describe the effect of infrared (IR) radiation on carbon dioxide molecules.

Describe the effect of infrared (IR) radiation on carbon dioxide molecules.

Climate change or global warming is a consequence of increased levels of carbon dioxide in the atmosphere. Explain how the greenhouse effect warms the surface of the earth.

Climate change or global warming is a consequence of increased levels of carbon dioxide in the atmosphere. Explain how the greenhouse effect warms the surface of the earth.

Climate change or global warming is a consequence of increased levels of carbon dioxide in the atmosphere. Explain how the greenhouse effect warms the surface of the earth.

Identify one naturally occurring greenhouse gas, other than carbon dioxide or water vapour, and its natural source.

Identify one naturally occurring greenhouse gas, other than carbon dioxide or water vapour, and its natural source.

Identify one naturally occurring greenhouse gas, other than carbon dioxide or water vapour, and its natural source.

Formulate an equation that shows how aqueous carbon dioxide produces hydrogen ions, H⁺(aq).

Formulate an equation that shows how aqueous carbon dioxide produces hydrogen ions, H⁺(aq).

Formulate an equation that shows how aqueous carbon dioxide produces hydrogen ions, H⁺(aq).

Discuss the significance of two greenhouse gases, other than carbon dioxide, in causing global warming or climate change.

Discuss the significance of two greenhouse gases, other than carbon dioxide, in causing global warming or climate change.

Discuss the significance of two greenhouse gases, other than carbon dioxide, in causing global warming or climate change.

Explain, using an equation, the effect of increased carbon dioxide in the atmosphere on the pH of lake water.

Explain, using an equation, the effect of increased carbon dioxide in the atmosphere on the pH of lake water.

Explain, using an equation, the effect of increased carbon dioxide in the atmosphere on the pH of lake water.

Explain, using an equation, the effect of increased carbon dioxide in the atmosphere on the pH of lake water.

Explain, using an equation, the effect of increased carbon dioxide in the atmosphere on the pH of lake water.

Explain, using an equation, the effect of increased carbon dioxide in the atmosphere on the pH of lake water.

Outline one approach to controlling industrial emissions of carbon dioxide.

Outline one approach to controlling industrial emissions of carbon dioxide.

Outline one approach to controlling industrial emissions of carbon dioxide.

When combusted, all three fuels can release carbon dioxide, a greenhouse gas, as well as particulates. Contrast how carbon dioxide and particulates interact with sunlight.

When combusted, all three fuels can release carbon dioxide, a greenhouse gas, as well as particulates. Contrast how carbon dioxide and particulates interact with sunlight.

When combusted, all three fuels can release carbon dioxide, a greenhouse gas, as well as particulates. Contrast how carbon dioxide and particulates interact with sunlight.

Methane is another greenhouse gas. Contrast the reasons why methane and carbon dioxide are considered significant greenhouse gases.

Methane is another greenhouse gas. Contrast the reasons why methane and carbon dioxide are considered significant greenhouse gases.

Methane is another greenhouse gas. Contrast the reasons why methane and carbon dioxide are considered significant greenhouse gases.