Earth's Changing Climate Critical Juncture
6th Grade
•15 Qs
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Earth's Changing Climate Critical Juncture
Quiz
•
Science
•
6th Grade
•
Hard
+3
Standards-aligned
Lisa Thompson
FREE Resource
15 questions
Show all answers
1.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
Ice core data from Greenland indicates there was a time period on Earth when the atmosphere changed so more energy entered the system than exited. What change to the atmosphere could have caused this and how would it have affected energy on Earth during that time?
Carbon dioxide increased, leading to more energy in the Earth system because more exiting energy wasredirected (bounced) back toward Earth.
Carbon dioxide increased, leading to more energy in the Earth system because more energy was trapped by gases and held in the atmosphere.
Carbon dioxide decreased, leading to less energy in the Earth system because less exiting energy wasredirected (bounced) back toward Earth.
Carbon dioxide decreased, leading to more energy in the Earth system because less energy from the sun was redirected (bounced) back toward outer space.
Tags
NGSS.HS-ESS2-4
NGSS.HS-ESS2-6
2.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
Fossilized shells from the Pacific Ocean show that about 15 million years ago, there was a time period when carbon dioxide in the atmosphere increased. What would have happened to the energy absorbed by Earth’s surface during this time?
During this time, energy absorbed by Earth’s surface
stayed at a constant level.
changed unpredictably.
decreased.
increased.
Tags
NGSS.HS-ESS2-4
NGSS.HS-ESS3-5
3.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
A climatologist is creating a simulation for Earth’s climate and is working on how to set it up. One of the options for the simulation is to increase methane in the atmosphere. How should the energy in the Earth system change when the amount of methane in the atmosphere increases?
more energy in the Earth system and more energy absorbed by Earth’s surface, because less energy enters than exits.
more energy in the Earth system and more energy absorbed by Earth’s surface, because more energy enters than exits.
less energy in the Earth system and less energy absorbed by Earth’s surface, because more energy enters than exits.
less energy in the Earth system and less energy absorbed by Earth’s surface, because less energy enters than exits.
Tags
NGSS.HS-ESS2-4
NGSS.HS-ESS3-5
4.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
From about 120 to 80 million years ago, scientists think that a large amount of carbon dioxide was released from rock on the ocean floor, which led to increased carbon dioxide in the atmosphere. What happened to energy in the Earth system during this time?
increased, because less energy entered than exited. This is because more exiting energy was redirected (bounced) back toward Earth.
increased, because more energy entered than exited. This is because more exiting energy was redirected (bounced) back toward Earth.
increased, because more energy entered than exited. This is because more energy was trapped by gases and held in the atmosphere.
decreased, because less energy entered than exited. This is because more energy from the sun wasredirected (bounced) back toward outer space.
Tags
NGSS.HS-ESS2-4
NGSS.HS-ESS2-6
NGSS.HS-ESS3-5
5.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
A climatologist was working with a computer simulation that models Earth’s climate and atmosphere. She set up the controls of the simulation to decrease the amount of methane in the atmosphere. What should happen to the amount of energy absorbed by Earth’s surface?
When methane decreases, the amount of energy absorbed by Earth’s surface should
change unpredictably.
stay at a constant level.
increase.
decrease.
Tags
NGSS.HS-ESS2-4
NGSS.HS-ESS3-6
6.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
A scientist says that even if the amount of energy entering the system from the sun doesn’t change, there can still be less energy entering than exiting the Earth system. What could change in the atmosphere that would cause this and what effect would this have on energy in the Earth system?
Methane could increase, leading to more energy in the Earth system because more exiting energy would be redirected (bounced) back toward Earth.
Methane could increase, leading to less energy in the Earth system because more energy from the sun would be redirected (bounced) back toward outer space.
Methane could decrease, leading to less energy in the Earth system because less exiting energy would be redirected (bounced) back toward Earth.
Methane could decrease, leading to less energy in the Earth system because less energy would be trapped by gases and held in the atmosphere.
Tags
NGSS.HS-ESS2-4
NGSS.HS-ESS3-5
7.
MULTIPLE CHOICE QUESTION
1 min • 1 pt
The Karoo Ice Age started about 360 million years ago and lasted for about 40 million years. During this time, less energy entered the Earth system than exited. What is one change to the atmosphere that could have caused this?
Carbon dioxide decreased, leading to less energy in the Earth system because less energy was trapped by gases and held in the atmosphere.
Carbon dioxide decreased, leading to less energy in the Earth system because less exiting energy was redirected (bounced) back toward Earth.
Carbon dioxide increased, leading to more energy in the Earth system because more exiting energy was redirected (bounced) back toward Earth.
Carbon dioxide increased, leading to less energy in the Earth system because more energy from the sun was redirected (bounced) back toward outer space.
Tags
NGSS.HS-ESS2-4
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