Which of the following explains why lunar eclipses typically occur only two or three times a year instead of each month?
  1. Earth's axis is tilted relative to the plane of its orbital path around the Sun.
  2. The time it takes Earth to orbit the Sun is much longer than the orbital period of the Moon.
  3. The Moon's orbital path is tilted relative to the plane of Earth solar orbit.
  4. The time it takes for the Moon to orbit Earth is much longer than Earth's rotational period.
Explanation
Correct Response: C. Lunar eclipses occur when the Moon moves across the Sun, producing a shadow on Earth. A lunar eclipse can only occur when the Moon is in a direct line between the Sun and Earth. Since the Moon's orbit of Earth is tilted 5 degrees relative to Earth's orbital plane (the ecliptic), this lineup can only occur two or three times a year and not each time the Moon completes its orbit of Earth. Neither Earth's axial tilt relative to the plane of its orbit (A) nor the different orbital periods of Earth and the Moon (B) affect the relationship between Earth, the Moon, and the Sun that produces lunar eclipses. The Moon's orbital period (27 days) is much longer than Earth's 24-hour rotational period (D), but that difference is also not responsible for the rarity of lunar eclipses each year. 
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