clicker question: how are the lives of stars with close companions different?
TRANSCRIPT
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Clicker question:How are the lives of stars with close companions different?
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Algol is a binary: a 4.3Msun MS star and a 0.7Msun star
just leaving the MS. What’s odd about that?
Noth
ing
0.7
Msu
n is
not e
nou..
A 4
.3M
sun
star
spen
d...
Bin
ary
star
s al
ways
...
3% 5%
56%
36%
1. Nothing
2. 0.7Msun is not enough mass to form a true star
3. A 4.3Msun star spends less time on the MS than a 0.7Msun star
4. Binary stars always have equal masses
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How could this strange pairing have come about?
Stars in Algol are close enough that matter can flow from the subgiant (which just left the main sequence) onto the main-sequence star
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Left-hand star is now a subgiant (just leaving the MS), but was originally more massive, say 4.5 solar masses, than its companion (which started with, say, 0.5 solar masses). These original-mass stars are shown at top, on MS.
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Left-hand star is now a subgiant (just leaving the MS), but was originally more massive, say 4.5 solar masses, than its companion (which started with, say, 0.5 solar masses).
As the left-hand star reached the end of its MS life and expanded, it began to transfer mass to its companion.
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Left-hand star is now a subgiant (just leaving the MS), but was originally more massive, say 4.5 solar masses, than its companion (which started with, say, 0.5 solar masses).
As it reached the end of its MS life and expanded, it began to lose mass to its companion.
Now the companion star is more massive (it went from 0.5 to 4.3 solar masses), while the mass-losing star (now a subgiant) went from 4.5 to 0.7 solar masses.
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Eventually the mass-losing subgiant star (the star on the left) will become a white dwarf.
What happens after that? Role reversal! When the star on the right becomes a giant, the white dwarf gains matter from it.
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Chapter 13The Bizarre Stellar Graveyard
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What is a white dwarf?
White dwarfs are the leftover cores of dead stars, usually made mostly of carbon (some are made mostly of helium; others of oxygen or other elements heavier than carbon, up to and including iron).
Their name comes from the fact they are 'born' glowing white-hot with high temperatures (remember that the core of a normal star has a higher temperature than the surface of the star).
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In this Hubble space telescope photo we see Sirius A, the visually brightest star in the sky, and the white dwarf Sirius B as a tiny dot at the lower left. (The spikes of light are artifacts of the camera.)
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In X-rays (photo at left), Sirius B, the white dwarf, is brighter than its binary companion Sirius A, the visually brightest star in the sky.
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Electron degeneracy pressure supports white dwarfs against gravity, and doesn't depend on temperature. So a white dwarf has the same temperature inside as on its surface (unlike normal stars or planets).
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White dwarfs cool off and grow dimmer with time
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Hubble space telescope photo of white dwarfs in a globular cluster… they’re very dim!
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White dwarfs cool off and grow dimmer with time.
So not all white dwarfs are white: they have colours from blue-white (young) to orange-red (old).
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A solar-mass white dwarf is about the same size as Earth
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White dwarfs shrink when you add mass to them because their gravity gets stronger. Temperature also increases.
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Shrinkage of White Dwarfs
• White dwarfs shrink when they get ‘heavier’!
• Quantum mechanics says that electrons in the same place cannot be in the same state
• Adding mass to a white dwarf increases its gravity, forcing electrons into a smaller space
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Shrinkage of White Dwarfs
• Quantum mechanics says that electrons in the same place cannot be in the same state
• Adding mass to a white dwarf increases its gravity, forcing electrons into a smaller space
• In order to avoid being in the same state in the same place some of the electrons need to move faster. That increases the temperature, but not the pressure - degeneracy pressure doesn't depend on temperature
• Is there a limit to how much you can shrink a white dwarf? (That is, how much mass a WD can have?)
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The White Dwarf Mass Limit
Einstein’s theory of relativity says that nothing can move faster than light. [The speed of limit is the same relative to all observers.]
When electron speeds in a white dwarf approach the speed of light, electron degeneracy pressure can no longer support the white dwarf.
Chandrasekhar found (at age 20!) that this happens when a white dwarf’s mass reaches 1.4 MSun
S. Chandrasekhar
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What can happen to a white dwarf in a close binary system?
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White dwarf’s gravity pulls matter off of giant companion, but angular momentum prevents the matter from falling straight in; instead, it forms an accretion disk around the white dwarf.
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Friction in disk makes it hot, causing it to glow
Friction also removes angular momentum from inner regions of disk, allowing them to sink onto white dwarf
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What would gas in an accretion disk do if there was no friction in the disk?
It w
ould o
rbit
fore
ver
It w
ould e
ventu
ally
fall
in
It w
ould b
e blo
wn
out ..
48%
12%
41%1. It would orbit forever
2. It would eventually fall in
3. It would be blown out of the disk
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Hydrogen that accretes onto a white dwarf builds up in a shell on the surface
When base of shell gets hot enough, hydrogen fusion suddenly begins and causes a nova
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Nova explosion generates a burst of light lasting a few weeks and expels much of the accreted gas into space
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What happens to a white dwarf in a binary when it accretes enough matter to reach the 1.4 MSun limit?
It e
xplo
des
It c
olla
pses
into
a n
e...
It g
radu
ally
beg
ins
fu...
Noth
ing s
pecia
l
36%
0%
24%
40%1. It explodes
2. It collapses into a neutron star
3. It gradually begins fusing carbon in its core
4. Nothing special
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Two Types of SupernovaMassive star supernova: (Type II)
Iron core of massive star reaches white dwarflimit and collapses into a neutron star; rest of star 'bounces' off neutron star and explodes
White dwarf supernova: (Type Ia)
As white dwarf in close binary system reacheswhite dwarf limit, carbon fusion begins suddenly, throughout the white dwarf (uniform temperature) …complete explosion of white dwarf into space
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One way to tell supernova types apart is through their light curves (showing how luminosity changes with time)
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Nova or White Dwarf Supernova?
• Supernovae are MUCH, MUCH more luminous (about 10 million times)
• Nova: H to He fusion in a surface layer, white dwarf left intact
• White dwarf Supernova: complete explosion of white dwarf, nothing left behind
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Supernova Type: Massive Star or White Dwarf?
• Light curves differ (brightness changes over time are different)
• Spectra differ (exploding white dwarfs don’t have hydrogen absorption lines --- they're made of carbon and some oxygen, but essentially no hydrogen)
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What have we learned?• How are the lives of stars with
close companions different?
• When one star in a close binary system begins to swell in size at the end of its hydrogen-burning life, it can begin to transfer mass to its companion. This mass exchange can then change the remaining life histories of both stars.
• Sun
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What have we learned?What is a white dwarf?• A white dwarf is the core
left over from a low-mass star, supported against the crush of gravity by electron degeneracy pressure.
• What can happen to a white dwarf in a close binary system?
• It can acquire hydrogen from its companion through an accretion disk. As hydrogen builds up on the white dwarf’s surface, it may ignite with nuclear fusion to make a nova, or compress the white dwarf until carbon fusion creates a supernova.
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Activity 25, Special Relativity, p. 83
Parts I, II and IV (skip part III for now)
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1. You’re standing in the aisle of a plane flying at constant speed, and drop your headphones.
They
fall
dire
ctly
bel
..
They
fall
dow
n, b
ut l...
They
fall
dow
n, b
ut la.
.
89%
1%10%
1. They fall directly below your hand.
2. They fall down, but land towards the back of the plane.
3. They fall down, but land towards the front of the plane.
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2A. According to Einstein, what will Pertti measure for the speed of
the pulse sent by Riitta?
Lig
htspee
d c m
inus
...
Lig
htspee
d c
Lig
htspee
d c p
lus
ro...
33% 33%33%
:10
1. Lightspeed c minus rocket speed V
2. Lightspeed c
3. Lightspeed c plus rocket speed V
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2B. What will Pertti (on a rocket skateboard) measure for the speed of light
from a streetlight in front of her?
Lig
htspee
d c m
inus
...
Lig
htspee
d c
Lig
htspee
d c p
lus
sk...
33% 33%33%
:30
1. Lightspeed c minus skateboard speed v
2. Lightspeed c
3. Lightspeed c plus skateboard speed v
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2C. What will Pertti (on a rocket skateboard) measure for the speed of a light
pulse sent by Riitta in her rocket ship?
Lig
htspee
d c m
inus
...
Lig
htspee
d c
Lig
htspee
d c p
lus
s...
33% 33%33%
:30
1. Lightspeed c minus skateboard speed v minus rocket speed V
2. Lightspeed c
3. Lightspeed c plus skateboard speed v plus rocket speed V
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2D. Velocity = length divided by time. If lightspeed is absolute…
Len
gth a
nd/or t
ime
mu..
Len
gth m
ust b
e re
lativ
e.
Tim
e m
ust b
e re
lativ
e.
Len
gth a
nd/or t
ime
mu..
29%
61%
7%3%
1. Length and/or time must be absolute.
2. Length must be relative.
3. Time must be relative.
4. Length and/or time must be relative.
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Part IV, page 85-86
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6A: Referring to Fig. 3, in which Graciela is stationary, whose light pulses travel the greater
distance between ticks?
The
light p
ulses
in G
r...
The
light p
ulses
in D
i...
Nei
ther
– b
oth th
eir l
ig..
0% 0%0%
:10
1. The light pulses in Graciela’s clock
2. The light pulses in Dimitris’ clock
3. Neither – both their light pulses travel the same distance between ticks
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6C: Graciela perceives that the interval between ticks on Dmitris’ clock …
Is lo
nger th
an th
e in
t...
Is s
horter t
han th
e in
...
Is th
e sa
me
as th
e in
t...
0% 0%0%
:10
1. Is longer than the interval between ticks on her own clock
2. Is shorter than the interval between ticks on her own clock
3. Is the same as the interval between ticks on her own clock
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What we know: Lightspeed c is a constant. c=(distance traveled by light)/(travel time). As seen by
Graciela, Dimitris’ light pulses travel a greater
distance. Therefore:
As
seen
by
Gra
ciel
a, t.
.
As
seen
by
Gra
ciel
a, t.
.
0%0%
:10
1. As seen by Graciela, the travel time (time between light pulses) is longer for Dimitris’ clock.
2. As seen by Graciela, the travel time (time between light pulses) is shorter for Dimitris’ clock.
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MOVING CLOCKS RUN SLOW
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MOVING CLOCKS RUN SLOW
• If a clock is moving relative to you, it runs slower than your watch, which is not moving relative to you.
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MOVING CLOCKS RUN SLOW
• If a clock is moving relative to you, it runs slower than your watch, which is not moving relative to you.
• From the point of view of someone not moving relative to the clock, you and your watch are moving. So from that person’s point of view, your watch is running slow relative to the clock.
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Dmitris perceives that the interval between ticks on Graciela’s clock …
Is lo
nger th
an th
e in
t...
Is s
horter t
han th
e in
...
Is th
e sa
me
as th
e in
t...
0% 0%0%
:10
1. Is longer than the interval between ticks on his own clock
2. Is shorter than the interval between ticks on his own clock
3. Is the same as the interval between ticks on his own clock
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6E: Whose clock is keeping the “right” time?
Gra
ciel
a’s
Dim
itris
’
Both
clo
cks
Nei
ther
clo
ck
0% 0%0%0%
:10
1. Graciela’s
2. Dimitris’
3. Both clocks
4. Neither clock
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A CLOCK MOVING RELATIVE TO YOU RUNS SLOWER THAN A CLOCK NOT
MOVING RELATIVE TO YOU
• If a clock is moving relative to you, it runs slower than your watch, which is not moving relative to you.
• From the point of view of someone not moving relative to the clock, you and your watch are moving. So from that person’s point of view, your watch is running slow relative to the clock.