Physics - Stellar Evolution

Flashcards

Nebula to protostar

What is the first stage in the evolution of a star?

first-stage-is-nebula

A nebula.

What is the main element in a nebula?

nebula-main-element

Hydrogen.

What happens to a nebula after a long period of time?

nebula-gravitational-collapse

It collapses under its own gravity.

As a nebula is collapsing under its own gravity, what happens to the stores of energy?

nebula-gpe-to-ke

The gravitational potential potential is transferred to kinetic energy.

What happens as the gravitational energy of the dust particles in a nebula is transferred to kinetic energy?

nebula-temperature-rises

The temperature increases.

What is a protostar (f)?

protostar-definition

The object at the center of a nebula that is going to become a star, but doesn’t yet do fusion.

What is the tipping point for a protostar to become a main sequence star?

protostar-fusion-tipping-point

The temperature is sufficient.

Main sequence

Why is a main sequence star “stable”?

main-sequence-stability-equilibrium

Because an equilibrium is reached by the force of gravity and radiation pressure.

What is the relationship between the mass of a star and the duration time that its in its main sequence?

mass-vs-main-sequence-duration

The larger the mass, the shorter the duration.

Why does increasing the mass of a star shorten its main sequence duration?

why-massive-stars-burn-out-faster

Because it is hotter, so fusion is quicker and therefore burns out quicker.

Becoming a red giant

What is the next stage after the main sequence in a star’s evolution?

stage-after-main-sequence

Becoming a red giant or red super giant.

What causes a main sequence star to become a red giant?

cause-of-red-giant-formation

The hydrogen in the core runs out.

Why can a star suddenly go from running out of hydrogen to fusing helium?

sudden-helium-fusion-reason

No hydrogen in the core means there is no longer an equilibrium, so the core shrinks and temperature becomes sufficient for helium fusion.

What is fused after hydrogen in a red giant?

red-giant-fuses-helium-after-hydrogen

Helium.

What is the relationship between temperature and your ability to do fusion on heavier elements?

heavier-elements-need-more-energy

The heavier the element, the more energy is required.

What is fused after helium in a red giant?

red-giant-fuses-carbon-after-helium

Carbon.

What sort of vegetable do red giants end up looking like?

red-giant-onion-structure-mnemonic

An onion.

White dwarfs and electron degeneracy

What happens for a small star ($<1.44 M _ \odot$) when it can no longer fuse carbon?

small-star-collapses-to-white-dwarf

The red giant collapses to a white dwarf.

What other material is there around a white dwarf after a red giant collapses?

planetary-nebula-around-white-dwarf

A planetary nebula.

What is the Pauli Exclusion Principle in very simple terms?

pauli-exclusion-simple-terms

You can’t squish electrons together.

Why is a white dwarf stable?

white-dwarf-stability-equilibrium

Because an equilibrium is reached by the gravitational force and electron degeneracy pressure.

What is the Chandrasekhar limit?

chandrasekhar-limit-value

\[1.4 M _ \odot\]

What is electron degeneracy pressure?

electron-degeneracy-pressure-definition

The force given by electrons not wanting to be close due to the Pauli Exclusion Principle.

When, in terms of solar masses, does a white dwarf form?

white-dwarf-mass-threshold

When the mass of the star is less than the Chandrasekhar limit, $1.4 _ \odot$

Red giant versus red supergiant

What determines why a main sequence star becomes a red giant or a red supergiant?

giant-vs-supergiant-determined-by-mass

The mass of the star.

Why do relatively “light” stars only become red giants opposed to red supergiants?

light-stars-only-red-giants

Because their mass is not great enough to overcome electron degeneracy pressure.

For a red supergiant, what comes after fusing carbon?

red-supergiant-fuses-oxygen-after-carbon

Fusing oxygen.

What is the limit for fusion in a red supergiant?

red-supergiant-fusion-limit-iron

Fusing iron.

Why do red supergiants stop fusing at iron?

why-fusion-stops-at-iron

Because fusing iron doesn’t produce any energy.

Supernovae, neutron stars and black holes

When does a supernova happen?

supernova-trigger

When the star can’t fuse iron.

Why does a supernova make a big bang?

supernova-rebound-explosion

Because all the elements that make up the star collide with the central inert core and are bounced back off.

Between what masses is a neutron star formed from a red supergiant?

neutron-star-mass-range

Between $1.4M _ \odot$ (the Chandrasekhar limit) and $3 _ \odot$

From what mass is a black hole formed from a red supergiant?

black-hole-mass-threshold

Over three $1M _ \odot$

What is $1M _ \odot$?

solar-mass-meaning

The mass of the sun.

Properties of giant and dwarf stars

What are the four important properties of a red giant or supergiant (SCBD)?

red-giant-properties-scbd

Large _ _ S _ _ urface area
_ _ C _ _ ooler
_ _ B _ _ right
Low _ _ D _ _ ensity

What are the four important properties of a white dwarf (DDSH)?

white-dwarf-properties-ddsh

_ _ D _ _ ense
_ _ D _ _ im
_ _ S _ _ mall
_ _ H _ _ ot

Neutron stars

What keeps a neutron star stable?

neutron-star-stability-equilibrium

An equilibrium is reached by the force of gravity and neutron degeneracy pressure.

What is the relationship between size and brightness of a star?

size-inverse-brightness-relationship

\[\text{size} \propto \frac{1}{\text{brightness}}\]

What is neutron degeneracy pressure?

neutron-degeneracy-pressure-definition

The force given by neutrons not wanting to be close due to the Pauli Exclusion Principle.

Why is a larger mass required to become a black hole compared to a neutron star?

black-hole-needs-more-mass-than-neutron-star

Because with a large enough mass you can overcome neutron degeneracy pressure.

Heavy element production

When are elements heavier than iron produced?

heavy-elements-produced-in-supernova

During a supernova.

What elements are _ produced _ during a supernova?

supernova-produces-heavy-elements

Elements heavier than iron.

Exam phrasing for supergiants and spectra

What are three properties of red supergiants?

red-supergiant-properties-list

Red colour
Large luminosity
Low surface temperature
Large mass
Large surface area

What is a constellation?

constellation-definition

A group of stars that form a recognisable pattern.

What causes absorption lines in the spectra of starlight?

absorption-lines-cause

Electrons of specific elements are excited in the atmosphere of stars and then photons are released in all directions.

When describing the formation of a main sequence star like the sun, what should you specify about the process of beginning fusion?

describe-fusion-hydrogen-to-helium

Hydrogen nuclei combine to make helium nuclei.

When describing the formation of a main sequence star like the sun, how should end it?

describe-main-sequence-stability-ending

Say the star is stable due to the equilibrium reached.

How can you turn “red supergiants are big” into more marks?

supergiant-big-into-marks

Large mass
Large surface area

How can you spell the limit of solar masses for a star to evolve into a white dwarf?

chandrasekhar-spelling-mnemonic

Chan drase khar

Questions to practice

Can you describe the evolution of a star up to its main sequence?
Can you describe the formation of a red giant from a main sequence star?
Can you describe the evolution of a red giant after the main sequence?
Can you describe the formation of a neutron star?
Can you describe the evolution of the universe?

See Also