The latitude that would receive the most direct solar radiation on the spring equinox is the equator. On the spring equinox, the sun is directly over the equator, resulting in equal day and night lengths.
Which latitude would receive the most direct solar radiation on the spring equinox?(1 point)
Responses
the equator
the equator
the South Pole
the South Pole
the Arctic Circle
the Arctic Circle
the Tropic of Capricorn
5 answers
How would studying a volcanic eruption help you investigate cooler temperatures on Earth?(1 point)
Responses
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject water vapor, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject water vapor, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject carbon dioxide, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject carbon dioxide, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject tsunamis, which reflect incoming energy from the sun back to space, therefore cooling the surface of Earth.
Responses
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject water vapor, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject water vapor, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject carbon dioxide, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject carbon dioxide, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject tsunamis, which reflect incoming energy from the sun back to space, therefore cooling the surface of Earth.
The correct response is:
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
This process can lead to a temporary cooling effect on the Earth's surface due to the formation of aerosols that scatter sunlight.
Which phenomenon is the result of a tsunami?(1 point)
Responses
development of a hurricane
development of a hurricane
broken coral reefs
broken coral reefs
scorched trees
scorched trees
abnormally warm ocean water
Responses
development of a hurricane
development of a hurricane
broken coral reefs
broken coral reefs
scorched trees
scorched trees
abnormally warm ocean water
The phenomenon that is the result of a tsunami is broken coral reefs. Tsunamis can cause significant damage to coastal ecosystems, including coral reefs, by forcefully inundating them with water and debris.
7 answers