do now question what life stage is our sun currently in? what do you think will happen to our sun as...
TRANSCRIPT
DO NOW QUESTIONWhat life stage is our Sun currently in? What do you
think will happen to our Sun as it gets older?
The Life Cycle of Stars
Stage 1: Formation Enters first stage as a
ball of gas and dust
Gravity pulls the gas and dust together into a sphere
As the sphere becomes denser, it gets hotter and the hydrogen changes into helium
Stage 2: Main Sequence The longest stage
In the core of this type of star, hydrogen atoms fuse into helium atoms releasing a huge amount of energy
Nuclear Fusion Occurs when hydrogen changes to
helium This process releases energy that fuels
the star
2 hydrogen atoms
combine
1 helium atoms is produced
1 hydrogen
atom
1 hydrogen
atom
+
energy is
released
Stage 3: Red Giant The star expands and cools once it uses
all of its hydrogen The center of the star shrinks The star’s atmosphere then grows very large and cools The star is reddish in color Red giants size comparison to
our Sun. Note, red giants can vary in
size.
Stage 4: White Dwarf Final stage of a star’s life cycle
Has the same mass as the sun or smaller
A small hot star that is the leftover center of an older stare
There is no hydrogen left and can no longer generate energy by fusing hydrogen atoms into helium atoms About the same size
as Earth
Supernova At the end of its life,
a massive star may explode in a large, bright flash called a supernova
A gigantic explosion in which a massive star collapses and throws its outer layers into space
Chandra, Hubble, and Spitzer Space Telescope image of
Crab Nebula supernova remnant
Neutron Star Following a
supernova, the center of the collapsed star contracts to form a neutron star
A star that has collapsed under gravity to the point at which all of the stars particles are neutrons
Pulsar A spinning neutron
star that sends out radiation across space
This radiation (radio waves) is detected on Earth by radio telescopes
Vela pulsar, picture taken by Chandra X-Ray
Observatory
Black Hole An object that is so massive that light
cannot escape
If the center of a collapsed star has a mass that is more than 3 times the mass of the sun, the star may contract further because of gravity
The force of the contractions crushes the dense center of the star and leaves a black hole