NGC 5979

NGC 5979. Image Credit: ESA/NASA

NGC 5979 is a planetary nebula located in the southern constellation Triangulum Australe, discovered by the English astronomer John Herschel in 1835. Planetary nebulae form during the final stages of a star’s life when it exhausts its nuclear fuel and sheds its outer layers into space. Here are some key facts about this nebula:

Appearance

NGC 5979 is situated approximately 9,000 light-years away from Earth, making it a relatively distant object within our galaxy.

When observed through a telescope, NGC 5979 appears as a faint, nebulous shell with a characteristic round or slightly elongated shape. Its visual characteristics can vary depending on observing conditions and the resolution of the telescope used. Under optimal conditions, observers may notice subtle variations in brightness and texture, which contribute to the nebula’s unique appearance. The nebula’s edge may display a slight gradient, giving it a more ethereal quality, and its faint glow can be challenging to capture, requiring larger telescopes to discern its features clearly.

Size

NGC 5979 is a relatively large planetary nebula, with an estimated diameter of approximately 0.5 light-years. This size places it among the more substantial planetary nebulae within our galaxy, allowing for a relatively extensive distribution of gas and dust in its surrounding environment. When viewed in angular measurements, the nebula spans about 3 arc minutes across. This apparent size allows astronomers to observe it with moderate telescopes, although its faintness still presents a challenge for amateur observers.

Composition

Like other planetary nebulae, NGC 5979 is primarily composed of ionized gases, including hydrogen and helium, along with traces of heavier elements such as oxygen, nitrogen, and sulphur. These elements are ejected from the central star during its transition from a red giant to a white dwarf. The nebula’s distinctive coloration arises from the ionization of these gases by the intense ultraviolet radiation emitted by the central star, producing a stunning visual display.

The ionized gases in NGC 5979 form a complex structure that can vary in density and distribution. This diversity in composition results in regions of varying brightness, which can be observed as intricate patterns when viewed through powerful telescopes. The nebula’s physical properties are indicative of its evolutionary stage, as it represents a snapshot of the late life cycle of a star. The ongoing expansion of the nebula continues to enrich the interstellar medium with heavy elements, contributing to the cosmic cycle of matter.

Observation

The best months for observing NGC 5979 from the southern hemisphere, particularly during the culmination of the constellation Triangulum Australe, are around August (winter). At this time, the constellation reaches its highest point in the sky, providing optimal visibility and favourable observing conditions for objects within it, including NGC 5979.

While August offers the most favourable conditions for observing NGC 5979, the nebula is visible throughout the year from the southern hemisphere. Observers also have opportunities to see it during the months surrounding August (from July to September), depending on local viewing conditions and the specific timing of the constellation’s visibility during the night.

NGC 5979 in the constellation of Triangulum Australe. Credit: Stellarium