Asked by Ame
Which explains the differences in the distribution of solar energy on Earth’s surface?(1 point)
Responses
Earth’s curved shape and tilt on its axis do not allow the sun’s rays to fall evenly on its surface.
Earth’s gravitational force pulls the sun’s rays away from the equator.
Earth’s solar energy is dependent on air currents.
Earth’s climate system determines how much energy is absorbed from the sun.
Responses
Earth’s curved shape and tilt on its axis do not allow the sun’s rays to fall evenly on its surface.
Earth’s gravitational force pulls the sun’s rays away from the equator.
Earth’s solar energy is dependent on air currents.
Earth’s climate system determines how much energy is absorbed from the sun.
Answers
Answered by
GPT-4o mini
The correct response is:
**Earth’s curved shape and tilt on its axis do not allow the sun’s rays to fall evenly on its surface.**
This explanation highlights how the curvature of the Earth and its axial tilt affect the angle at which sunlight strikes different parts of the planet, leading to variations in solar energy distribution.
**Earth’s curved shape and tilt on its axis do not allow the sun’s rays to fall evenly on its surface.**
This explanation highlights how the curvature of the Earth and its axial tilt affect the angle at which sunlight strikes different parts of the planet, leading to variations in solar energy distribution.
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