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Tides are caused mainly by
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
How large is the moon compared to Earth?
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
The tendency of a moving object to continue moving in a straight line or a stationary object to remain in place is called
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
The strength of the force of gravity depends on
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
The temperature of the moon’s surface varies greatly from day to night because the moon has
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
A total solar eclipse is visible from
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
All objects are attracted to each other by the force of
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
An equinox occurs when
the masses of the objects and the distance between them.
differences in how much the moon pulls on different parts of Earth.
inertia.
no atmosphere.
about one-fourth the diameter of Earth
only within the moon’s umbra.
neither end of Earth’s axis is tilted toward or away from the sun.
gravity.
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