Term
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Definition
Stars are huge balls of burning gas that emit light from far away distances. |
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Term
What is the defining characteristic of stars? |
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Definition
nuclear FUSION in the core of a star. FUSION FUSION FUSION |
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Term
How does the Sun hold itself up against self-gravity? |
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Definition
It is held up by gas pressure. |
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Term
How is the Sun structured? What are its atmospheric layers? |
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Definition
Made up of Photosphere, Chromosphere, and Corona. |
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Term
What is the chemical composition of the Sun and how does it compare to those of the planets? |
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Definition
Much like a Jovian planet. Made up of Hydrogen, Helium, and other gases. |
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Term
What fusion reaction is the Sun using (primarily) and where? |
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Definition
Nuclear fusion in hot, dense core. |
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Term
What was the solar neutrino "problem"? |
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Definition
a lot of solar neutrinos on Earth, but we have only observed about 1/3 the expected. Solution=neutrinos transformed to two other kinds and when we found three we counted them all. |
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Term
What are sunspots and why are they relatively dark? |
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Definition
dark spots in the photosphere, the darker the cooler. very magnetic. |
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Term
What drives the solar activity cycle? |
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Definition
driven by magnetic field growth. |
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Term
How do we determine basic stellar properties such as surface temperature, chemical composition, luminosity, mass, size, and velocity? |
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Definition
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Term
How do we measure distances to stars? |
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Definition
by using the parallax method. distance-to-star = Earth-Sun distance / parallax-angle |
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Term
What is a stellar parallax? |
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Definition
the slight back-and-forth shifting of star positions that occurs as we view the stars from different positions in Earth's orbit of the Sun. |
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Term
Are the brightest stars in the night sky just closer to us or are they relatively far away & unusually luminous? |
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Definition
it depends on size, distance, and luminosity. Those stars that are closer and more luminous appear brighter than stars that are farther away and less luminous. |
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Term
How does the Sun's luminosity compare to other stars? |
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Definition
our Sun is about average compared to other stars in the universe. |
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Term
What does E=mc2 mean and how is it particularly relevant to the fusion process? |
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Definition
mass is a form of energy, stars creates their own energy through fusion. |
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Term
Why does fusion require extremely high temperatures and densities? |
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Definition
To bond together, two nuclei must be thrown together with great force. This is fusion. Must overcome electrical repulsion of two fusing, must go really fast=high temps. Also particles are incredibly small and they repel so they need high density to find each other and must go fast to carry out fusion. |
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Term
What kinds of particles fuse in fusion reactions? |
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Definition
hydrogen, helium, carbon. They are positively charged atomic nuclei=what is fusing. |
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Term
How do fusion reactions produce energy? |
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Definition
Nuclear fusion involves the joining together of two atomic nuclei, fusing them into a single nucleus. When you join two nuclei together (usually light nuclei with only a few protons and/or neutrons), a tremendous amount of energy is released. |
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Term
Where do fusion reactions occur in a star? |
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Definition
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Term
How do stars fuse hydrogen, helium, carbon, etc? |
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Definition
Hydrogen: proton-proton chain/CNO cycle, Helium: triple alpha (two step process), Carbon: alpha capture. |
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Term
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Definition
stars form in cold, dense gas clouds, gravitationally contracting & fragmenting |
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Term
Which stars are most numerous, which provide the most mass, which generate the most light? |
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Definition
most numerous: high mass most mass: top left most light: giants top right and high mass |
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Term
How old is the Sun and when will it start to die? |
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Definition
5 billion years, it will start to die at 10 billion years. |
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Term
What stellar property determines how quickly a star evolves (and dies)? |
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Definition
stellar evolution theory( lifetime = τ ∝ Mc2/L ) |
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Term
How does the temperature for helium fusion compare to that for hydrogen fusion? |
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Definition
The triple-alpha process requires more energy because fusing only two helium nuclei results in some form of unstable beryllium. |
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Term
How do stars die? What are the three kinds of stellar corpses? What stellar property determines which way a star dies? |
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Definition
From the same way a star is born, it dies. As the nuclear fusion process takes place. Each atom slams into each other, not only producing that energy but the two atoms that smash turn into one atom, a heavier atom. It turns from Hydrogen to a heavier element Helium and so forth down the periodical table of elements. The heavier the element the more heat is required to fuse them toghter. Pending on the mass of the star, a star can continue the nuclear process all the way to the element iron. Iron is an element that absorbs energy so the nuclear process ends there for majority of the stars. The stars core will try to fuse iron but fail, and the star expands and boom super nova.
White Dwarf +Planetary Nebula, Neutron Star + Supernova II, Black Hole
Luminosity |
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Term
What happens to a star if it tries to fuse iron in its core? |
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Definition
iron core implosion...it produces a neutron star |
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Term
What will the Sun become when it dies? What will most stars end up as? |
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Definition
white dwarf. black holes. |
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Term
How can a star's evolution be affected by being in a close stellar binary system? |
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Definition
If two stars orbit close enough they can transfer mass to one another |
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Term
What kinds of stars blow up in supernovae? What do these explosions leave behind? |
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Definition
Type I accreting WD, in binary star system, completely explodes, old stellar population Type II single massive star has iron core collapse, leaves NS remnant, young stellar population |
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Term
What is a planetary nebula? |
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Definition
gas cloud puffed off from distended and unstable star. the core shrinks and becomes white dwarf. |
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Term
What do Hertzsprung-Russell diagrams plot? Why are they useful? |
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Definition
plot stellar TEMPERATURE vs. LUMINOSITY |
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Term
What other stellar properties (apart from those explicitly plotted) can be deduced from Hertzsprung-Russell diagrams? |
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Definition
get AGE of star clusters from MS Turnoff
high L, high T limit (upper left) of MS most luminous stars die in < 106 yrs least luminous stars die in > 1011 yrs => upper left of MS erodes down over time get DISTANCE to star clusters by matching MS "spectroscopic parallax" |
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Term
How are the mass and luminosity of main sequence stars related? |
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Definition
Luminosity depends directly on mass |
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Term
What is the relative size of a star which is cooler than the Sun but is more luminous? |
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Definition
get AGE of star clusters from MS Turnoff |
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Term
What is a white dwarf? How does a white dwarf form? |
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Definition
White dwarf stars are formed when stars of 0.08 and 8 solar masses expand into red giants, than start to shrink, and die. Whats left is a white dwarf. |
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Term
How does a white dwarf holds itself up against its self-gravity? |
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Definition
electron degeneracy pressure |
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Term
How big in size is a white dwarf? What is its maximum mass? |
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Definition
Diameter = 1 Earth diameter. Mass < 1.4 Msun |
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Term
What is the ultimate fate of an isolated white dwarf? |
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Definition
will cool forever → Black Dwarf (none old enough yet) |
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Term
Will our Sun ever undergo a white dwarf supernova? |
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Definition
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Term
What are black holes? What are their basic properties? |
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Definition
a collapsed star with such strong gravitational fields that even light cannot escape from it. Sphere from which NOTHING escapes. . . not even light !! MASSIVE gravity. |
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Term
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Definition
Through the dying of giant stars when the fuel is exhausted. Gravity forces matter to fall into it's self and crush downward, until a singularity is created. |
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Term
What holds up a black hole against self-gravity? |
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Definition
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Term
What is the event horizon of a black hole? How is its size related to the mass of a black hole? |
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Definition
When something becomes a black hole the mass is at the center. The event horizon is the radius within which gravity is so strong that light cannot escape. The closer you are to mass (middle) is infinity. |
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Term
When a star becomes a black hole, where does the star's mass go? |
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Definition
it goes to the very center of the black hole. |
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Term
How do we detect black holes? |
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Definition
by measuring its effects on objects around it. |
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Term
What is the maximum mass of a black hole? |
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Definition
There is no maximum mass. |
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Term
What happens to the appearance of an object as it falls into a black hole? |
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Definition
blue shifted..events happen faster because your sense of time is faster. |
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Term
Can you see out of a black hole? |
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Definition
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Term
What kinds of particles fuse in fusion reactions? |
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Definition
protons, as well as other atomic nuclei |
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Term
When hydrogen fusion takes place, some of the ___ of the original ___ gets converted to ___? |
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Definition
mass, proton, energy (light) |
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Term
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Definition
dark, cool patches on the sun where magnetic fields have suppressed heat flow from the interior. |
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Term
What makes a star a star? |
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Definition
big bag of gas w/ nuclear fusion reactions |
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Term
The sun is held up against gravity by? |
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Definition
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Term
The sun gets energy from? |
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Definition
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Term
The chemical composition of the sun is similar to? |
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Definition
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Term
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Definition
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Term
The solar cycle is caused by? |
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Definition
the growth and decay of magnetic fields |
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Term
Most of the brightest stars are bright because? |
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Definition
they are intrinsically luminous but further |
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Term
Mea Parallax allows us to directly determine? |
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Definition
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Term
A nearby stars parallax angle is measured by earthlings and jupiterlings whose angle is bigger? |
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Definition
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Term
Stars parallax angle measured by earth and venus. How do they compare? |
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Definition
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Term
Binary stars essential in determining stellar property of what? |
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Definition
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Term
Stars with cooler surface temperature than sun, but more luminous must be? |
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Definition
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Term
Where are the stars with the largest diameters? |
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Definition
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Term
Where are the stars on the main sequence with shortest life time? |
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Definition
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Term
Where on main sequence do stars have the shortest life? |
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Definition
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Term
Where are the white dwarfs on the HR diagram? |
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Definition
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Term
Where on the main sequence do stars have most mass? |
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Definition
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Term
When stars burn hydrogen on the main sequence, where do the reactions occur? |
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Definition
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Term
Presently, low mass stars burn hydrogen via _____ high mass ___ |
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Definition
Proton-Proton chain, CNO cycle |
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Term
The sun is about_____and is about_____its life |
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Definition
5 billion years old, half |
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Term
After nuclear fuel has been used the core? |
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Definition
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Term
The stellar remnant of a star like the sun becomes? |
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Definition
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Term
Supernova’s are important because? |
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Definition
it expels our building blocks |
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Term
Hydrogen fusion occurs at____temp then helium? |
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Definition
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Term
The stellar remnant of a star like the sun |
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Definition
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Term
If the sun were somehow a BH earth would |
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Definition
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Term
When a star becomes a BH, its mass goes |
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Definition
mass compresses to singularity at center |
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Term
What kind of pressure holds a black hole? |
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Definition
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Term
If you shined a light from inside EH could we see it? |
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Definition
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Term
Maximum mass of white dwarf? |
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Definition
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Term
What happens when you push a white dwarf to its mass limit? |
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Definition
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