When is the best time to observe Algol?

Algol is best observed from October through December, with peak visibility during November when it transits around midnight in the Northern Hemisphere.

Where is Algol located in the sky?

Algol lies in the constellation Perseus at right ascension 03h 08m and declination +40° 57′.

What telescope do I need to follow Algol?

To follow Algol through its full brightness cycle (magnitude 2.1 to 3.4) you need the naked eye under a dark sky — the star fades out of smaller apertures near minimum light.

Algol — Variable Star in Perseus

HIP 14576; Beta Persei; 26 Persei

Observable Variable Star Showpiece (80/100)

Range: 2.09 - 3.3, Period: 2.9d, Type: EA/SD

Magnitude 2.1–3.4^m VariableStar Perseus (Per) Visible

Star Map + List + Plan

About Algol

Description

Algol is the prototype eclipsing binary star at magnitude 2.12 (varying to 3.39) in Perseus. The system contains a bright B8V star eclipsed every 2.87 days by a dimmer K-type subgiant companion that passes in front. Located about 93 light-years from Earth, Algol's regular brightness drops are easily observable with the naked eye.

Observing Tips

Algol lies in the head of Perseus, representing the eye of Medusa the Gorgon. Every 2 days, 20 hours, and 49 minutes, its brightness drops from magnitude 2.1 to 3.4 for about 10 hours — easily noticed by comparing it to nearby stars. Eclipse predictions are published in astronomy magazines and online. Best observed September through February.

History

The name Algol comes from the Arabic 'ra's al-ghul,' meaning 'the demon's head' — its variability may have been known to ancient observers. It has been called the 'Demon Star' and the 'Winking Eye.' John Goodricke correctly explained its variability as eclipses in 1783, founding the study of eclipsing binaries.

Fun Facts

Algol's variability was likely known to the ancient Egyptians — a Cairo Calendar from 1200 BC may record its 2.85-day period. John Goodricke, who explained the eclipses, was deaf from childhood and made his discovery at age 18. Algol is also a strong radio source due to magnetic activity.

Observe

1Physical Properties

Magnitude 2.12

Range 2.09 - 3.3

Period 2.9 days

Variable Type Eclipsing Binary (Algol-type)

Spectral Type B7V

Star Color Blue-white (B-V -0.05)

Distance 93 ly

2Position & Identifiers

RA 03h 08m 10.1s

Dec +40° 57' 20.0"

Constellation Perseus (Per)

HR 936

HIP 14576

HD 19356

SAO 38592

Bayer Beta

Flamsteed 26 Per

Variable ID Bet Per

Double Cat 2362

SIMBAD Wikipedia

3How easy to follow?

Magnitude 2.1 – 3.4 mag Amplitude 1.3 mag Period 2.87 d Type EA/SD

Equipment	Bortle 3	Bortle 4	Bortle 5
Naked eye Naked eye	Easy	Medium+	Medium+
50 mm finder 50mm finder	Easy	Easy	Easy
150 mm telescope 150mm scope	Easy	Easy	Easy

Easy Medium Hard Very hard Impossible

Bortle 3 = rural · 4 = outer suburbs · 5 = suburbs

4Visibility

Set a location in User Settings to see visibility data.

Best season Oct – Dec (peak: Nov)

5Survey Image

Loading survey image…

6Light Curve

7Comparison Stars for Algol (2.1–3.4)

Nearby stable stars for estimating brightness (AAVSO)

Loading comparison stars…

Explore

Size Comparison

Querying VizieR for stellar data…

Compare Stars

Compare with another star

Spectral Classification

Hertzsprung-Russell Diagram

Loading HR diagram…

Read: The Hertzsprung-Russell Diagram — Reading Stars Like a Map

Stellar Lifecycle

Blackbody Spectrum

Stellar Absorption Spectrum

Simulated absorption spectrum based on spectral type. Hover over lines to identify elements.

Stellar Fusion

Discover

17Stellar Notes

Variable Star

ADS 2362A is the prototype Algol star, first discovered as variable by Montanari in 1669. The first period determined by | Goodricke in 1783, who also interpreted the variations as due to eclipses. The prototype star proves to be a more | a complicated system than most of the Algol-type stars, i.e., compact triple system with separation of the components | well under 0.1". The components usually designated Algol A, B, C, sometimes A, a, P. Two formerly additionally desig- | nated components D and E, inferred on the basis of an apparent 32 year apsidal motion, are now considered spurious. | The various Algol components must not be confused with the visual components ADS 2362 B-E, optical companions at much | greater distances from A. ADS 2362A, EA 2.12 - 3.40V, 2.86732442d, abrupt period changes. Orbital and rotation periods | synchronized. Rotational velocity 65k/s. Radio flares extending to about 1 A.U., not associated with X-ray activity. | Radio flare activity appears correlated with period discontinuities, attributed to "starquakes." Mass flow from K to B8 | component at rate of 1.8x10E-08 solar masses/year. Possible circumstellar material associated with radio or H alpha | emission.

Double Star

A* var. B8V, 1.858y, a = 0.011" or 1.862y, a = 0.104". Apparent apsidal period 28.4y or 32y. Resolved by speckle | interferometry: sep. 0.086", 2-3v fainter than primary. This may be Algol C. Four visual companions all optical: | B, 12.7v at 59"; C, 12.5 at 67"; D, 10.5 at 82"; BC sep. 15"; E, 12.5v at 11" from D.

Spectroscopic Binary

Algol ABxC: 1.8613y, K 12.0k/s, V0 +3.7k/s, msin3i 3.91, asini 109. Spectra B8V, G5IV, Am. Mass Algol AB, 5.3 | Suns; C, 1.8 Suns. Circumstellar gas fills Roche lobe of hot component. ADS 19356A: 2.8673d, K 44.0k/s, V0 var., | asini 1.73. Resolved by speckle interferometry 1982.17, sep. 0.052", 1983.94, sep. 0.08".

Color

Color excess E(B-V) = +0.03.

Spectral

B8V+G.

Alternative Names

ALGOL; Gorgona; Gorgonea Prima; Demon Star; El Ghoul.