Crescent Visibility
Educational Guide

Conjunction (New Moon)

Conjunction occurs when the Moon passes directly between the Earth and the Sun, sharing the same ecliptic longitude. This marks the start of the lunar month astronomically.

Important: Conjunction does not mean the crescent is visible. The Moon is too close to the Sun — it rises and sets with it.

• Marks the true astronomical new moon
• Moon is typically invisible for 1–2 days after conjunction
• Does not determine when the crescent will first appear

Moon Elongation

Elongation is the angular separation between the Moon and the Sun, as seen from Earth — measured in degrees (0°–180°).

A larger elongation means the Moon has moved further from the Sun after conjunction, making it easier to see with a brighter, wider crescent.

• 0° = Conjunction (invisible)
• < 7° = Generally invisible (Danjon limit)
• 7°–12° = Difficult, may require optical aid
• > 12° = Increasingly easy to see

Moon Altitude at Sunset

Altitude is the Moon's angular height above the horizon at the moment of local sunset. This is one of the most critical factors for visibility.

A negative altitude means the Moon has already set before the Sun — sighting is impossible. A higher altitude gives more time for the sky to darken.

• < 0° = Moon already below horizon — not visible
• 0°–5° = Very low, difficult even under ideal conditions
• 5°–10° = Possible under good conditions
• > 10° = Good chance of naked-eye visibility

Arc of Vision (ARCV)

The Arc of Vision (ARCV) is the difference in altitude between the Moon and the Sun at sunset. When the Sun is at the horizon (altitude ≈ 0°), ARCV ≈ Moon altitude.

A higher ARCV means the sky has darkened more, making the thin crescent easier to detect.

• Used in both Yallop and Odeh criteria
• Higher ARCV = darker sky = easier sighting
• Key parameter separating optical-aid from naked-eye visibility

Arc of Light (ARCL)

The Arc of Light refers to the length and brightness of the illuminated crescent arc as seen from Earth — it depends directly on the elongation.

A larger ARCL means a longer, brighter crescent that is easier to detect, especially near the Danjon limit where the crescent is extremely thin.

• Closely related to elongation for thin crescents
• Larger ARCL → wider, brighter crescent
• Primary parameter in the Odeh criterion

Why Is Visibility Probabilistic?

Even with the best geometric conditions, many real-world factors introduce uncertainty into whether any individual observer will successfully sight the crescent.

• Atmospheric conditions: humidity, dust, aerosols
• Horizon obstructions: mountains, buildings, clouds
• Observer experience: trained vs. untrained eye
• Light pollution: reduces contrast against bright twilight
• Instrument quality: naked eye vs. binoculars vs. telescope

Geometric models like Yallop and Odeh provide probability zones, not certainties.