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The Sun's Layers and Temperatures
(Source: NASA http://nmp.jpl.nasa.gov/st5/SCIENCE/sun.html )
The Sun is a huge ball of gas. Unlike Earth, it doesn't have a solid surface where we could
stand——even if it were cool enough. And, just like a golf ball, the Sun is made up of layers: a
core, a surface, and surrounding atmospheric layers, each of which have their own layers.
Diagram of the Sun
Core:
the temperature at the very center of the Sun is about 27 million degrees Farenheit (F).
The temperature cools down through the radiative and convective layers that make up
the Sun's core.
Surface:
the photosphere layer is the most visible to the human eye. Here the temperature is only
about 10,000 degrees F. This layer, which looks like a bright disk, sends light and heat to
Earth. The photosphere's outer edge seems to be less bright, a condition called "limb
darkening." It is on this limb that we see sunspots, dark blemishes on the Sun's surface.
Seen through a telescope, the photosphere has a granular appearance. These granules are
small convection cells——about 1000 kilometers (just over 621 miles) across——that
carry the energy from below the apparent surface. Granules cover the entire Sun except
for those areas covered by sunspots.
Atmosphere:
the chromosphere is the innermost atmospheric layer. It is just above the photosphere.
Here the temperature begins to rise again, to about 36,000 degrees F. Above the
chromosphere is the transistion layer, where temperatures increase 6000 to over half-amillion degrees. Gases in this layer shine in the ultraviolet and extreme ultraviolet
wavelengths. The outermost atmospheric layer is the corona, which gets really hot,
almost 2,000,000 degrees F. This is where the solar wind begins. These layers can only
be seen during total solar eclipses. Here is where we see towering masses of luminous gas,
called filaments or prominences, on the solar limb against the dark sky.
While the center of the Sun's core can get as hot as 30 million degrees F, its outer layers cool
down. The photosphere, which is outside the core, is the coolest layer. This is as expected,
because normally heat passes outwardly from hot to cold. However, the Sun's outermost
atmospheric layer is much hotter than its surface layer! Astronomers have puzzled over this
enigma for more than 50 years. What is happening on the Sun?
Scientists still aren't quite sure. They do know that within the innermost core, energy is generated
by nuclear reactions. The energy generated and stored in the core diffuses (spreads) outward by
radiation (mostly gamma-rays and x-rays) into the next layer, the photosphere——the most
visible surface of the Sun——and beyond. Here, gaseous layers change from being completely
opaque (blocking light) to a radiative (particle/wave energy) condition to being transparent
(admitting light). In the chromosphere, the rising heat causes hydrogen to give off the reddish
light seen in the prominences during solar eclipses. And, the corona, which extends for millions
of miles beyond the relatively cool photosphere, is even hotter. While there are differing
opinions on the causes of the corona's extreme temperatures, most scientists now attribute it to
the interaction of the Sun's magnetic field lines.