Our Sun Facts - Sun Pictures

Our Sun

Ultraviolet image taken of the sun by a NASA solar imaging satellite.

Sun from Earth orbit

The sun as seen from the space shuttle in orbit around the Earth.

Sun Facts

The sun is a star at the center of our solar system and is thought to be around 4.5 billion years old.
It has a diameter of around 865,000 miles (1.4 million km), which is 109 times larger than Earth.
The mass of the sun accounts for 99.86% of all the mass in the solar system.
Three quarters of the sun is composed of hydrogen with helium making up most of the rest.
The sun is actually bigger and brighter than the vast majority of stars in our galaxy.
Large explosions from the sun which are called flares produce solar winds in our solar system.
Sunspots are cooler areas on the sun's surface as large as 50,000 miles (80,000 km) making them visible from Earth with the naked eye.
The sun is actually white, the Earth's atmosphere makes it appear yellow.
In around 5 billion years time the sun will become a red giant, destroying the planets Mercury, Venus and Earth in the process.

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Sun's Orbit

The sun orbits around the center of our galaxy, the milky way, at a distance of around 25 million light years taking about 250 million years to make one orbit.

Sun's Atmosphere

The atmosphere of the sun consists of several layers called the photosphere, chromosphere, transition region and corona. The photosphere is the lowest layer and the visible surface of the sun we see. The corona is the outer layer which produces flares and solar winds.

Sun's Temperature

Temperatures at the photosphere are around 5,500C (10,000F). At the sun's core temperatures are over 15 million C (27 million F).

Life of our Sun

The sun produces all of its energy through nuclear fusion. At its core hydrogen is fused together which produces helium, during this process a small amount of mass is lost which emerges as energy. The sun burns 600 million tonnes of hydrogen every second, the energy produced slowly makes its way to its surface and is released into the solar system as heat and light. The bad news is that this process cannot exist forever, unfortunately like everything in the universe the sun has a life span. The good news is that it will continue in its current state for another 5 or 6 billion years. At the moment our sun is in the middle of its main sequence phase, meaning it is producing all its energy from this hydrogen fusion process. This is the longest phase in the life of a star which lasts billions of years, in the case of our sun around 10 billion years. After this time the sun will run out of hydrogen and begin using the remaining helium as fuel, it will begin expanding to hundreds of times its original size and its surface will cool down turning it into a red giant (pictured above). This will result in the destruction of Mercury, Venus and bring an end to all life on Earth. It will exist as a red giant for around one billion years then lose its mass until only the core remains, this is called a white dwarf. It will remain in this state for billions of years until eventually it cools down and dies.

Our Nearest Neighbors

Our sun is part of a single star system but actually this is not the norm in the galaxy. The majority of stars are part of a binary system which is two nearby suns orbiting each other. Our closest stellar neighbor Proxima Centauri (pictured left) is actually part of a multiple star system with Alpha Centauri A and B. Proxima Centauri is 25 trillion miles (40 trillion km) from our sun, even if we could travel at the speed of light it would still take over 4 years to reach it.

Proxima Centauri is a red dwarf star and these are by far the most common types of star in our galaxy. Red dwarfs have less than half the mass of the sun and are usually much smaller in comparison, Proxima Centauri is only around one seventh the size of our sun with only 10% of its mass. Whereas stars like our sun last only around 10 to 12 billion years red dwarfs exist for trillions of years. They are much cooler than our own sun and it seems unlikely they could support life in any orbiting planets.

One of the other stars in the Alpha Centuari system, Alpha Centauri A, is much more like our own sun. Planets orbiting close to this sun could enjoy habitable conditions similar to what we have on Earth. Any inhabitants living on this planet would have the striking image of three suns in its sky, the very bright Centauri A, the much smaller and dimmer orange colored Centauri B and the even smaller red dwarf star.

Images & Video

Solar eclipse

Sun Rotation (NASA)

Sun in our sky

The Sun Compared to Earth in Size

Sun Statistics

Comparison with Earth

Diameter: 864,000 miles (1.4 million km)
Distance from center of Galaxy: 25 million light years
Orbital Period: 250 million years
Rotation Period: 25.38 days

Maximum Temperatures: 15 million C (27 million F) (Core)
Minimum Temperatures: 5,500C (10,000F) (Photosphere)

Gravity: 274 m/s² (28 x Earth's Gravity)
Density: 1.409 g/cm³ (25.5% Earth's Density)
Mass: 1.989 x 10³⁰ kg (333,000 x Earth's Mass)
Volume: 1.412 x 10¹⁸ km³ (1.3 million x Earth's Volume)

Atmosphere (Photosphere): Hydrogen 73.46%, Helium 24.85%, Oxygen 0.77%, Carbon 0.29%, Iron 0.16%, Sulfur 0.12%, Neon 0.12%, Nitrogen 0.09%, Silicon 0.07%, Magnesium 0.05%.

Diameter: 7,926 miles (12,756 km)
Average Distance from Sun: 93 million miles (150 million km)
Orbital Period: 365.24 days
Rotation Period: 23.934 hours

Maximum Surface Temperatures: 58C (136F)
Minimum Surface Temperatures: -88C (-126F)

Gravity: 9.766 m/s²
Density: 5.515 g/cm³
Mass: 5.9737 x 10²⁴ kg
Volume: 1.0832 x 10¹² km³

Atmosphere: 78.08% nitrogen, 20.95% oxygen, 0.93% argon, 0.038% carbon dioxide, water vapor makes up on average around 0.4% of Earth's atmosphere depending on climatic conditions.

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