Terme du glossaire : Eclipse solaire

Redirigé depuis Eclipse solaire totale

Description : Une éclipse solaire se produit lorsque la Terre, la Lune et le Soleil sont disposés en ligne droite, la Lune se trouvant entre la Terre et le Soleil. Observé depuis la surface de la Terre, le disque de la Lune recouvre le disque du Soleil dans le ciel ; depuis l'espace, on peut voir l'ombre de la Lune se déplacer sur la face éclairée de la Terre.

Il existe différents types d'éclipses solaires. Totale, lorsque le disque de la Lune recouvre entièrement le Soleil ; partielle, lorsque seule une fraction du disque solaire est couverte, même au maximum de l'éclipse ; et annulaire, lorsque la Lune est plus éloignée que la moyenne et apparaît donc plus petite que d'habitude, ce qui permet à un anneau du disque solaire de rester visible, même au maximum de l'éclipse.

Lors d'une éclipse solaire totale, le point le plus sombre de l'ombre de la Lune sur la Terre est appelé "ombre", et le bord de l'ombre est appelé "pénombre". Les observateurs situés dans l'ombre voient une éclipse totale, tandis que les observateurs situés dans la pénombre voient une éclipse partielle.

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Statut du terme et de sa définition : La définition initiale de ce terme en anglais a été aprouvée par un·e spécialiste de la recherche en astronomie et un·e spécialiste de l’éducation
La traduction de ce terme et de sa définition n'ont pas encore été aprouvées

Le glossaire multilangue de l'OAE est un projet du Bureau de l'IAU de l'Astronomie pour l'Education (OAE) en collaboration avec le Bureau de l'IAU de diffusion de l'Astronomie (OAO). Les termes et définitions ont été choisis, écrits et relues grâce à un effort collectif de l'OAE, les Centres et les Noeuds de l'OAE, les Coordinateurs Nationaux de l'Astronomie pour l'Education de l'OAE(NAECs) et d'autres volontaires. La liste complète des crédits pour ce projet est disponible ici . Tous les termes du glossaire et leur définition sont déposés sous licence Creative Commons CC BY-4.0 et doivent être créditées au nom de "IAU OAE".

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Dans d'autres langues

Arabe: الكسوف الشمسي
Allemand: Sonnenfinsternis
Anglais: Solar Eclipse
Italien: Eclissi solare
Japonais: 日食 (Liens externes)
Chinois simplifié: 日食
Chinois traditionnel: 日食

Media associé

The Moon appears as a black circle, blocking light from the Sun. A faint glow from the Solar corona surrounds the Moon.

Total Solar Eclipse

Légende : This image represents the total solar eclipse as observed from Kurigram in Bangladesh. Solar eclipses occur when the moon, as seen from earth, passes in front of the Sun. The moon is much smaller than the Sun, it is closer by the night amount that the angular diameters of the Sun and moon are almost the same (~approximately 1/2 a fingertip). Therefore, the moon can cover up the Sun's disk when it passes directly between the Sun and the Earth. The ring of light around the black circle is called the corona.
Crédit : Lutfar Rahman Nirjhar Lien vers les crédits

License: CC-BY-3.0 Creative Commons (CC) Attribution 3.0 non transposé Icônes

The dark, irregular shape of Phobos crosses the lower portion of the Sun’s disk, obscuring roughly one quarter of it.

Transit of Phobos from Mars

Légende : This video shows the Sun viewed from Mars as Mars’ moon Phobos transits across the solar disk. This video is composed of images taken from the Martian surface on the 30th of September 2024 by the Mastcam-Z camera of NASA’s Perseverance Mars rover. While our Moon is perfectly sized to eclipse the Sun when seen from the Earth’s surface, Phobos’s size and orbit mean that it cannot cover the solar disk completely. This means that this event is a transit and not an eclipse. This video is in real time, with the entire transit lasting just 32 seconds. This compares with the several hours a solar eclipse on Earth takes from the Moon first obscuring part of the Sun to the Sun being completely visible again. This is due to Phobos’ much shorter orbital period of just over seven and a half hours compared to the Moon’s orbital period of 27 days as well as the solar disk appearing slightly smaller from Mars than it does from Earth. Note the non-spherical shape of Phobos as it crosses the solar disk.
Crédit : NASA/JPL-Caltech/ASU/MSSS Lien vers les crédits

License: PD Domaine Public Icônes

Over an observatory with several domes the Moons slowly covers the Sun leaving a thin, glowing ring.

A total solar eclipse over the La Silla Observatory, Chile

Légende : A real-time video showing the total solar eclipse on the 2nd of July 2019 over the La Silla Observatory in Chile. This video covers the moments before totality, the just under two minutes of totality, and the moments after totality. Note that at the start of the video the Sun was already almost completely obscured by the Moon, it is just hard to see due to the brightness of the Sun and the exposure of the camera. Indeed the Moon started partially eclipsing the Sun roughly an hour before the start of this recording and would continue to partially obscure the Sun for roughly the same time afterwards. At the point of totality one can see the faint glow of the Sun’s diffuse outer regions and on the horizon one can also see the glow from the parts of the surrounding areas on Earth that are not experiencing totality.
Crédit : ESO/A. Santerne Lien vers les crédits

License: CC-BY-4.0 Creative Commons (CC) Attribution 4.0 International (CC BY 4.0) Icônes

A large, circular shadow, about one half the width of North America slowly moves across the continent from south-west to north-east

2024 Total Solar Eclipse from Space

Légende : The NASA Deep Space Climate Observatory (DSCOVR) captured the total solar eclipse over North America on the 8th of April, 2024 from space using its Earth Polychromatic Imaging Camera (EPIC). This video shows images of Earth taken over the course of four and a half hours. The Moon’s shadow on the Earth can be seen as it moves from south-west to north east. While the shadow looks like it covers a huge part of the continent, only a strip up to 185 km wide in the middle of the eclipse's path saw a total eclipse at some point on this day and at any one time only the central part of the shadow would have experienced a total solar eclipse. Most of the area covered by this shadow only saw a partial eclipse. DSCOVR sits at L1, a stable gravitational point between the Sun and Earth and observes the day side of the Earth.
Crédit : NASA/DSCOVR EPIC team/Michala Garrison and Wanmei Liang Lien vers les crédits

License: PD Domaine Public Icônes

The Moon moves from top right to bottom right, covering then uncovering the Sun. At totality wispy features surround the Sun

Total Solar Eclipse from Casper, Wyoming, USA

Légende : This video shows the total solar eclipse of the 21st of August 2017 observed from Casper, Wyoming, USA by a team of astronomers from the European Space Agency (ESA). This video has been sped up considerably, in reality the moment of totality lasted just under two and a half minutes while the time from the Moon first appearing to obscure the Sun until the Sun was completely unobscured was two hours and 48 minutes. Before the eclipse we can see several sunspots on the Sun. The Moon moves across the Sun, covering the whole solar disk visible from the point on the Earth this video was taken from. At totality we can see the diffuse solar corona which is normally outshone by the bright solar disk. Note that while edges of the Sun appear brighter just before and just after totality, this is due to exposure time of the camera being adjusted to make the features visible at totality more obvious. Towards the end of the video some thin cloud begins to affect the observations.
Crédit : Video credit: ESA/CESAR ; Music copyright: Flight Of The Angel 3 by Chris Blackwell, audionetwork.com Lien vers les crédits

License: CC-BY-SA-3.0-IGO Creative Commons (CC) Attribution - Partage dans les Mêmes Conditions 3.0 Organisations Internationales Icônes

Diagrammes associés

The Moon lies between the Sun and Earth casts a small shadow and large partial shadow

Total Solar Eclipse

Légende : This not to scale diagram shows what happens during a total solar eclipse. The Moon orbits the Earth, but its orbit is slightly tilted with respect to the Earth’s orbit around the Sun. During the new moon lunar phase, the Moon lies between the Earth and the Sun, but due to the Moon’s tilted orbit around the Earth, the Moon normally lies above or below the Sun at this point. However twice a year the Moon’s orbit lines up in such a way that the Moon can lie in a direct line between the Earth and Sun. During this time a solar eclipse can occur. The Moon is about 400 times smaller than the Sun, but is 400 times closer to the Earth than the Sun. Hence the Sun and Moon have approximately the same angular size when viewed from the Earth. This means that it is possible for the Moon to completely cover the Sun when viewed from Earth. This is known as a total solar eclipse. Here we see a schematic of such and eclipse. The Moon casts a shadow on the Earth known as the umbra. This is a roughly circular shadow a few hundred kilometres across. Any region within the umbra will see the Moon completely cover the Sun and thus will experience a total solar eclipse. Outside of the umbra there are regions where the Moon will cover part of the Sun. This partial shadow is known as the penumbra. Regions in the penumbra will experience a partial solar eclipse. An eclipse is a dynamic event with the Moon moving in its orbit and the Earth rotating. Hence the umbra and penumbra move across the Earth’s surface. The path the umbra takes across the Earth is known as the path of totality. Let’s consider one particular region that lies in the path of totality. Except in rare cases where an eclipse begins at sunrise, a region that experiences totality will first see the Moon cover part of the Sun and gradually move across Sun until it is totally covered. From outside the Earth this would appear as the penumbra moving over this particular region followed by the umbra moving over this region. Once the Moon moves so that it no longer completely covers the Sun, totality ends and the umbra moves away from this particular region. The Moon will continue to uncover the Sun until (unless the Sun sets before the end of the eclipse) the Sun is completely uncovered. From outside the Earth this would appear as the umbra moving away from our particular region and the edge of the penumbra approaching and eventually passing over the region. Outside of the path or totality there is a much broader region that will lie in the penumbra but will be missed by the umbra. Such regions will not experience a total solar eclipse during this event, only a partial solar eclipse.
Crédit : Aneta Margraf/IAU OAE

License: CC-BY-4.0 Creative Commons (CC) Attribution 4.0 International (CC BY 4.0) Icônes

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