Transcript The Sun PPT
The Sun?
The Sun is a star! There are
an incredible amount of
stars in the universe. Yay!
What is a star…?
A star is a huge sphere of very hot, glowing gas. Stars produce
their own light and energy by a process called nuclear fusion.
Fusion happens when lighter elements are forced to become
heavier elements. When this happens, a tremendous amount of
energy is created causing the star to heat up and shine. Stars
come in a variety of sizes and colors. Our Sun is an average sized
yellowish star. Stars which are smaller than our Sun are reddish
and larger stars are blue.
Useful Links:
http://science.nationalgeographic.com/science/space/universe/stars-article/
http://www.universetoday.com/24351/what-is-a-star/
http://imagine.gsfc.nasa.gov/docs/science/know_l2/stars.html
The Sun – Our Star
• One of many stars in the Milky Way, but
extremely important to us…why?
– Provides energy, helps in understanding other
stars b/c they’re too far away
Solar Data
• The diameter of the Sun is thus 109 times as
great as the Earth's diameter.
• About 1.3 million Earths could fit inside the sun.
• The mass of the sun is 2 x 1030 kilograms,
about 332,000 times the mass of the Earth.
• Volume of the Sun is about 1.5 million times that
of Earth’s
• Mean density of Sun = 1408 (kg/m3)
• Mean density of Earth = 5514 (kg/m3)
Solar Parts
• A ball of gas, which can be generally thought
of as having four “layers”:
– Solar interior (core, radiation zone, convection
zone)
– visible surface (photosphere)
• ‘visible’ ‘layer’
– two atmospheric components
• chromosphere
• corona
Photosphere
• Appears orange due to granules
– size of Earth and only last 8-10 minutes
– ‘boiling effect’ cause by circulation of energy in
the convection zone
Solar Activity
Composition surface = 74% Hydrogen, 25% Helium,
1% other
Sunspots: dark regions on the Sun that are slightly cooler than
surrounding surface, and are associated with very strong magnetic
activity.
Sunspots
• Observed throughout antiquity (try looking at the
sun at its lowest point in the sky, or through a
cloud bank and you can occasionally see them
unaided)
• Deduction of Solar Rotation rate and differential
rotation nature from sunspot observation
• Dark spot? Not really. Many X brighter than Full
Moon. Its relative.
• Plage = lighter areas around the sunspots
Chromosphere
• Layer above the photosphere
• Not visible to the naked eye
• Hot, low density gas produces an emission
spectrum
• Appears red due to concentration of hydrogen
gases
The Corona
• Only visible when the solar disc is covered
(during a solar eclipse or with a coronagraph)
• Very hot, High energy, low density particles
escape the gravitational pull of the Sun
• Released as streams of ions and radiation
outward from the Sun = Solar Wind
Sunspots
Prominences/Flares
• http://www.space.com/25287-major-solarflare-eruption-video.html
• http://www.space.com/25291-sun-sticks-outa-tongue-of-super-heated-plasma-video.html
• http://youtu.be/wisdfag6WIQ
Prominences/Flares
• Flares are massive eruptions from the surface
of the Sun resulting in huge amounts of
charged particle energy ejected into space
(CMEs – Coronal Mass Ejections)
• Threating to astronauts, damaging to
communication systems
• Kill shot? Radio/X-Ray/UV radiation
• Prominences are large looping structures of
solar material tapped by magnetic fields.
Aurora Borealis/Australis Colors
Solar Interior
A. The sun, like all stars, is powered by nuclear
fusion in its core.
B. The specific nuclear reaction that occurs in the
sun involves converting hydrogen to helium.
C. Core temperatures: 27 million degrees
Fahrenheit in the Sun’s core.
i. At such high temperatures, gas is
completely ionized, containing free moving protons
and electrons.
ii. Protons are positively charged and repel
each other electrically at close range; however, at T
> 10 Million K, proton speeds can be fast enough to
overcome electrical repulsion, and undergo a
nuclear fusion
II. Nuclear Fusion
A. Mechanism: NUCLEAR FUSION : Four
protons (hydrogen nuclei) slam together in
several steps to yield a helium nucleus (2
protons, 2 neutrons) plus energy in the form of
gamma rays.
B. Reactions:
Missing Matter -> Energy
• Matter is converted to energy according
to Einstein's famous formula:
– E = mc2
• c = speed of light (3x108m/s)
• M = mass (kg)
• E = energy (Joules [J])
– A Joule is a unit of energy equivalent to the energy
needed to apply a force of 1 Newton through a
distance of one meter.
How much energy in matter?
The equivalent of energy that would be produced by burning 1000 tons
of coal!!
C. Energy Production
i. Mass of resulting Helium (4.003 AMU) is
slightly less that the mass of the original 4 Hydrogen
atoms (4.0032 AMU). Difference of _0.0002_AMU.
ii. Missing mass was converted directly to
ENERGY and emitted, in amounts according to
Einstein’s equation:
iii. Because the speed of light is very great
(3x108 m/sec), the amount of energy released from
even a small amount of mass is a large amount_.
Solar Fusion
iv. Each nuclear fusion reaction that takes place (on an
atomic level) in the core produces a very small amount
of energy, not even enough energy to raise a housefly
a few inches. But, millions of these reactions in the
core convert 5 million tons of mass to energy every
second !!!!!
v. The energy produced in the form of
gamma rays is created by surrounding gas, which heats
up, expands and helps maintain the sun’s outward
force / pressure_. If fusion in the core were to stop,
the force of gravity would overcome the outward force
of pressure and the sun would collapse inward on
itself.
Solar Fusion
How long can such fuel consumption keep up
before the Sun run’s out?
– The Sun can last for a long time, however it will
not last for another 100 billion years
– In about 4.5 billion years, the Sun will swell into a
Red Giant star.