1 / 45

Earth’s surface absorbs mainly which types of energy ?

Earth’s surface absorbs mainly which types of energy ? a. Ultraviolet light and x-rays c. Ultraviolet and infrared light b. Infrared and visible light d. Visible and ultraviolet light. Earth’s surface absorbs mainly which types of energy ?

tuwa
Télécharger la présentation

Earth’s surface absorbs mainly which types of energy ?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Earth’s surface absorbs mainly which types of energy? a. Ultraviolet light and x-rays c. Ultraviolet and infrared lightb. Infrared and visible light d. Visible and ultraviolet light

  2. Earth’s surface absorbs mainly which types of energy? a. Ultraviolet light and x-rays c. Ultraviolet and infrared lightb. Infrared and visible light d. Visible and ultraviolet light

  3. 2. The energy source driving Earth’s weather comes from the Earth’s core through heat conduction. release of radiant heat energy through volcanic activity. the Sun through visible light d. the Moon through tides

  4. 2. The energy source driving Earth’s weather comes from the Earth’s core through heat conduction. release of radiant heat energy through volcanic activity. the Sun through visible light d. the Moon through tides

  5. 3. The Earth’s surface mainly gives off (radiates) which form of energy? Infrared light Visible light Ultraviolet light The Earth’s surface does not give off energy

  6. 3. The Earth’s surface mainly gives off (radiates) which form of energy? Infrared light Visible light Ultraviolet light The Earth’s surface does not give off energy

  7. 4. About 70% of the Sun’s energy directed toward Earth is absorbed by the Earth’s surface, clouds, and atmosphere. What happens to the rest of the energy? The energy is lost as it overcomes the Sun’s gravity. The energy is reflected by clouds, water, land back into space. The energy is diminished as it travels in space. The energy is reflected by the Moon back into space

  8. 4. About 70% of the Sun’s energy directed toward Earth is absorbed by the Earth’s surface, clouds, and atmosphere. What happens to the rest of the energy? The energy is lost as it overcomes the Sun’s gravity. The energy is reflected by clouds, water, land back into space. The energy is diminished as it travels in space. The energy is reflected by the Moon back into space

  9. 5. Weather is caused by the Sun’s energy warming the Earth’s surface unevenly. Which of the following is NOT a contributing factor to this uneven warming? • Different surfaces warm at different rates. • Different surfaces retain energy differently. • The Sun is farther away during the winter. • The Sun’s rays strike the surface at different angles due to latitude.

  10. 5. Weather is caused by the Sun’s energy warming the Earth’s surface unevenly. Which of the following is NOT a contributing factor to this uneven warming? • Different surfaces warm at different rates. • Different surfaces retain energy differently. • The Sun is farther away during the winter. • The Sun’s rays strike the surface at different angles due to latitude.

  11. 6. More of the Sun’s energy is received at the Earth’s tropics than in the arctic regions because the tropical regions are covered by a greater area of land. have more vegetation that absorbs the Sun’s energy. have a thinner atmosphere than the polar regions. receive sun rays closest to vertical.

  12. 6. More of the Sun’s energy is received at the Earth’s tropics than in the arctic regions because the tropical regions are covered by a greater area of land. have more vegetation that absorbs the Sun’s energy. have a thinner atmosphere than the polar regions. receive sun rays closest to vertical.

  13. 7. By percentage, the three most abundant gases in Earth’s atmosphere are: a. carbon dioxide, krypton, and neon b. hydrogen, helium, and xenon c. argon, nitrogen, and oxygend. sulfur dioxide, ammonia, and chlorine

  14. 7. By percentage, the three most abundant gases in Earth’s atmosphere are: a. carbon dioxide, krypton, and neon b. hydrogen, helium, and xenon c. argon, nitrogen, and oxygend. sulfur dioxide, ammonia, and chlorine

  15. 8. The most variable gas in our atmosphere is: a. oxygen b. water vapor c. carbon dioxide d. nitrogen

  16. 8. The most variable gas in our atmosphere is: a. oxygen b. water vapor c. carbon dioxide d. nitrogen

  17. 9. Certain atmospheric gases are thought of as “non-variable” since their abundance remains unchanged over vast periods of time. The two gases with the longest residence time in Earth’s atmosphere are: a. nitrogen and oxygen b. carbon dioxide and methane c. carbon monoxide and chlorine d. argon and helium

  18. 9. Certain atmospheric gases are thought of as “non-variable” since their abundance remains unchanged over vast periods of time. The two gases with the longest residence time in Earth’s atmosphere are: a. nitrogen and oxygen b. carbon dioxide and methane c. carbon monoxide and chlorine d. argon and helium

  19. 10. Earth’s early atmosphere gained oxygen through photosynthesis and ____________. a. cellular respiration b. photochemical dissociation c. reverse osmosis d. nitrogen fixation

  20. 10. Earth’s early atmosphere gained oxygen through photosynthesis and ____________. a. cellular respiration b. photochemical dissociation c. reverse osmosis d. nitrogen fixation

  21. 11. Volcanic outgassing was a major source for Earth’s early atmosphere. Another source which contributed significant quantities of gases to the atmosphere was: a. sublimation of Earth’s polar ice caps and thawing of arctic permafrost b. widespread burning of the Earth’s forestsc. ejection of gaseous matter from a nearby supernova d. comets hit Earth, release gas as the comet vaporize

  22. 11. Volcanic outgassing was a major source for Earth’s early atmosphere. Another source which contributed significant quantities of gases to the atmosphere was: a. sublimation of Earth’s polar ice caps and thawing of arctic permafrost b. widespread burning of the Earth’s forestsc. ejection of gaseous matter from a nearby supernova d. comets hit Earth, release gas as the comet vaporize

  23. 12. Which of the following are the two most abundant greenhouse gases in Earth’s atmosphere? a. water vapor (H2O) and carbon dioxide (CO2) b. carbon dioxide (CO2) and methane (CH4) c. ozone (O3) and carbon dioxide (CO2)d. nitrogen (N2) and oxygen (O2)

  24. 12. Which of the following are the two most abundant greenhouse gases in Earth’s atmosphere? a. water vapor (H2O) and carbon dioxide (CO2) b. carbon dioxide (CO2) and methane (CH4) c. ozone (O3) and carbon dioxide (CO2)d. nitrogen (N2) and oxygen (O2)

  25. 13. The greenhouse effect is: a. an undesired atmospheric phenomenon which should be eliminated b. directly responsible for the global cooling which resulted in our last ice age c. a recent atmospheric event due solely to the actions of humans burning fossil fuels d. an increase in atmospheric temperature due to gases that absorb and retain heat radiation

  26. 13. The greenhouse effect is: a. an undesired atmospheric phenomenon which should be eliminated b. directly responsible for the global cooling which resulted in our last ice age c. a recent atmospheric event due solely to the actions of humans burning fossil fuels d. an increase in atmospheric temperature due to gases that absorb and retain heat radiation

  27. 14. Carbon dioxide is best known of the greenhouse gases, but___________ is the most abundant. a. chlorofluorocarbon b. nitrous oxide c. water vapor d. methane

  28. 14. Carbon dioxide is best known of the greenhouse gases, but___________ is the most abundant. a. chlorofluorocarbon b. nitrous oxide c. water vapor d. methane

  29. 22. By studying the accompanying diagram, we can discern that: a. Earth’s surface reflects more solar radiation than do the cloudsb. Earth reflects 100% of the solar radiation it receivesc. more solar radiation is absorbed just by the surface than is reflected in totald. the atmosphere and clouds are able to absorb more solar radiation than Earth’s surface

  30. 22. By studying the accompanying diagram, we can discern that: a. Earth’s surface reflects more solar radiation than do the cloudsb. Earth reflects 100% of the solar radiation it receivesc. more solar radiation is absorbed just by the surface than is reflected in totald. the atmosphere and clouds are able to absorb more solar radiation than Earth’s surface

  31. 23. As solar radiation reaches Earth’s atmosphere, all the following occurs EXCEPT: a. some radiation is reflected b. some radiation is scattered c. some radiation gets absorbed by gasesd. some radiation decays into stable elements

  32. 23. As solar radiation reaches Earth’s atmosphere, all the following occurs EXCEPT: a. some radiation is reflected b. some radiation is scattered c. some radiation gets absorbed by gasesd. some radiation decays into stable elements

  33. 24. The term __________ refers to the reflectivity of a surface or substance. a. albedo b. convection c. insolation d. radiation

  34. 24. The term __________ refers to the reflectivity of a surface or substance. a. albedo b. convection c. insolation d. radiation

  35. 25. Based on the accompanying graphic, which Earth surface has the highest albedo?

  36. 25. Based on the accompanying graphic, which Earth surface has the highest albedo? D.snow

  37. 26. Convection distributes heat energy by: a. transporting groups of molecules from one place to another within a substance b. transferring energy without the involvement of a physical substance in the transmission c. direct, point-to-point contact with static, neighboring molecules d. emitting alpha and beta particles from unstable atomic nuclei

  38. 26. Convection distributes heat energy by: a. transporting groups of molecules from one place to another within a substance b. transferring energy without the involvement of a physical substance in the transmission c. direct, point-to-point contact with static, neighboring molecules d. emitting alpha and beta particles from unstable atomic nuclei

  39. 27. A sea breeze occurs during __________ as warm air above land rises and cold air over ocean water sinks, causing a convection cell which moves air from the __________. a. daytime / land out to the ocean b. nighttime / land out to the ocean c. nighttime / ocean in towards the landd. daytime / ocean in towards the land

  40. 27. A sea breeze occurs during __________ as warm air above land rises and cold air over ocean water sinks, causing a convection cell which moves air from the __________. a. daytime / land out to the ocean b. nighttime / land out to the ocean c. nighttime / ocean in towards the landd. daytime / ocean in towards the land

  41. 31. A deflection of winds and currents resulting from Earth’s rotation is the: a. Coriolis Effect b. Greenhouse Effect c. Tectonic Effect d. Adiabatic Effect

  42. 31. A deflection of winds and currents resulting from Earth’s rotation is the: a. Coriolis Effect b. Greenhouse Effect c. Tectonic Effect d. Adiabatic Effect

  43. 32. In the Northern Hemisphere, the Coriolis Effect causes masses of air to be deflected to the __________ of their original direction of motion. a. south b. left c. north d. right

  44. 32. In the Northern Hemisphere, the Coriolis Effect causes masses of air to be deflected to the __________ of their original direction of motion. a. south b. left c. north d. right

More Related