What is Star: Definition and 1000 Discussions

A star is an astronomical object consisting of a luminous spheroid of plasma held together by its own gravity. The nearest star to Earth is the Sun. Many other stars are visible to the naked eye at night, but due to their immense distance from Earth they appear as fixed points of light in the sky. The most prominent stars are grouped into constellations and asterisms, and many of the brightest stars have proper names. Astronomers have assembled star catalogues that identify the known stars and provide standardized stellar designations. The observable universe contains an estimated 1022 to 1024 stars, but most are invisible to the naked eye from Earth, including all individual stars outside our galaxy, the Milky Way.
A star's life begins with the gravitational collapse of a gaseous nebula of material composed primarily of hydrogen, along with helium and trace amounts of heavier elements. The total mass of a star is the main factor that determines its evolution and eventual fate. For most of its active life, a star shines due to thermonuclear fusion of hydrogen into helium in its core, releasing energy that traverses the star's interior and then radiates into outer space. At the end of a star's lifetime, its core becomes a stellar remnant: a white dwarf, a neutron star, or, if it is sufficiently massive, a black hole.
Almost all naturally occurring elements heavier than lithium are created by stellar nucleosynthesis in stars or their remnants. Chemically enriched material is returned to the interstellar medium by stellar mass loss or supernova explosions and then recycled into new stars. Astronomers can determine stellar properties including mass, age, metallicity (chemical composition), variability, distance, and motion through space by carrying out observations of a star's apparent brightness, spectrum, and changes in its position on the sky over time.
Stars can form orbital systems with other astronomical objects, as in the case of planetary systems and star systems with two or more stars. When two such stars have a relatively close orbit, their gravitational interaction can have a significant impact on their evolution. Stars can form part of a much larger gravitationally bound structure, such as a star cluster or a galaxy.

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  1. S

    Estimate Star Formation Rate: Kennicutt-Schmidt Law

    How does one analytically estimate star formation rate in a plasma cloud? Could someone lead me to original references? Kennicutt-Schmidt Law, I guess, is empirical.
  2. S

    Estimating Star Formation Rate in Plasma Clouds

    How does one analytically estimate star formation rate in a plasma cloud? Could someone lead me to original references?
  3. N

    Conservation of Momentum; finding the angular speed of a Neutron star

    Homework Statement Under some circumstances, a star can collapse into an extremely dense object made mostly of neutrons and called a neutron star. The density of a neutron star is roughly 10^{14} times as great as that of ordinary solid matter. Suppose we represent the star as a uniform, solid...
  4. A

    How Do You Calculate Constant Particle Density in a Star Cluster?

    Homework Statement A large, spherically symmetric collection of point particles of mass m move in circular orbits about a common center each with the same kinetic energy. If the only force acting is the mutual gravitational attraction of the particles, find the particle density (in the...
  5. A

    Imposssible to see light that left a star 13.4 billion yrs ago

    From the following, can anybody tell me where I am going wrong in my thinking? Cosmologists tell us that our telescopes can detect starlight that left a star 13.4 billion years ago. I say that is impossible for the following two reasons: 1. The Big Bang occurred 13.4 billion years. At...
  6. S

    Calculating orbits of moons, when both the planet and star are involved.

    Hi there! I'm developing a game that involves simulating a star system. I'm using the Unity engine and its physics engine. I've got gravity working perfect. I've also developed an algorithm that works out how much force you would need to apply to a body to start it orbiting around another...
  7. I

    Neutron Star Stability: Does Proton Crust Matter?

    Ok, I know neutron stars are mainly composed of neutrons. But also, they have some protons and normal nuclei at their surfaces. Is this crust of protons needed to keep the neutrons below stable? As in, if it disappeared, would the neutrons below start decaying back to protons to form its...
  8. R

    Stargazing What creates the star points in telescope pictures of stars?

    what creates the "star points" in telescope pictures of stars? it's a basic question. e.g. see this hi-rez Hubble Deep Space pic: http://upload.wikimedia.org/wikipedia/commons/9/9b/Hs-2004-07-a-full_jpgNR.jpg i count about three bright objects with pointy cross-like projections from...
  9. E

    When does helium fusion occur in an evolution of star?

    When does helium fusion occur in an evolution of star? Well, i just need help in this confusing part of a star's life. First of all, when the sun finishes the H-fuel at core, why doesn't it immediatly use the H-fuel on the surface.. And then another doubt is, what causes the expansion of the...
  10. E

    Width of Spectral Lines: Explaining Main Sequence Star Determination

    It's given in my book that from the width of spectral lines you can determine whether or not it is a main sequence star... Not sure if astro-como or quantum.. Anyway, i need a detailed easy explanation of what is the width of spectral lines.. Secondly, if we know that how will we determine...
  11. C

    Calculating how long ago light was emitted from a star?

    hey folks, i was wondering if anyone could give me help on a wee problem i have. using a distance of a star of 2.6pc from earth, how would one calculate the time it took for light to be seen on Earth today... ............... my books have rounded that 1pc = 3.3 ly so i would take 2.6...
  12. L

    What causes the pressure in a neutron star?

    Hey, So i just read 2 articles, the first talked about the mathematical problem of 'packing', IE how many smaller objects of the same size can fit inside a shape without overlapping or covering the boundaries of the shape. and the second article was talking about a recent neutron star that...
  13. DaveC426913

    We're no longer biggest star system

    Yet to be confirmed, but they've discovered a star system with 9 planets! (And those are just the big detectable ones!) The two latest are (nearly) super Earths. (well, 12x and 32x Earth's mass...), probably rocky...
  14. N

    Engineering Calculating line currents if one leg of a star system is short circuited.

    Hey guys, Been struggling with this for ages any help would be awesome. In Electrical engineering; Suppose you have a balanced multiphase star system with a given line voltage. The impedance of each phase is also know. If one of the coils is short circuited, calculate the line...
  15. M

    When a star forms where does the Gravity come from?

    Hey guys, in class today we learned about the life cycle of a star and at the very first stage gravity pulls the helium or Hydrogen nuclei at such a speed that they fuse (nuclear fusion). As I understand it there is little gravity in space so where is this extra gravity coming from? Thanks...
  16. S

    Nuetron Star Binary: Acretion Process Differences

    The acretion process between a white dwar binary and blakc hole binary is significantly different as the black hole has no solid surface. So am I right to presume that a neutron star binary should be the same process but with higher energies than than white dwarf case?
  17. C

    Solving the Mystery of Star A & B's Distance

    Homework Statement Star A and B are at rest relative to Earth. Star A is 27 ly from Earth, and as viewed from Earth, Star B is located beyond (behind) star A. (a) Star A is 27 ly from Earth. A spaceship makes a trip from Earth to star A at a speed such that the trip from Earth to Star A takes...
  18. C

    Matter at the core of a neutron star.

    Hello. I am wondering what are the properties of matter at the core of a neutron star. I read that it could be quark matter of strange matter, but overall uncertain. How can strange matter form if strange quarks decay very quickly into up quarks (the state of matter would last very shortly), and...
  19. B

    Black hole Nuetron star paradox

    Assume there is a neutron star, it has a mass that is just short of what is required for it to collapse into a black hole. Now suppose there is an observer orbiting the neutron star. Assume that the neutron star and the observer are traveling at a very high velocity with respect to a second...
  20. S

    What conditions must be met before star becomes a black hole?

    If only some stars become black holes what sets them apart from other stars, is it just size?
  21. C

    Star Cluster Within Self Schwarzschild Radius

    I have a qualitative question to ask: The Schwarzschild radius of matter is proportional to its mass. The actual radius of the matter, assuming it is spherical, is proportional to the cube root of its mass. This implies that the density required to form a Schwarzschild radius decreases as...
  22. T

    What does a more massive neutron star constitute?

    a. it rotates faster b. it is smaller c. it is more luminous d. it has stronger pulses I'm stumped on this practice question for my final. I'm thinking that a. and d. contradict each other since doesn't an older, slower rotating neutron strong emit longer, stronger pulses? C. seems to...
  23. B

    Can Jupiter Become a Stable Star?

    With its current mass, can Jupiter become a stable star? Suppose Jupiter was artificially compressed to only a fraction of its present size (a hypothetical situation occurring in at least one work of science fiction), would the gravity-radiation pressure equilibrium be reached at all? It appears...
  24. Q

    Estimating number of Neutron Stars in a Star Cluster

    Homework Statement An open cluster is observed to contain 1000 stars. Clusters contain many more low mass stars compared to high mass stars, reflecting the star formation process. This depen- dence of the number of stars formed in a given mass range is expressed in the so-called initial mass...
  25. W

    Is there any star not belonging to any galaxy?

    are all stars in some galaxy? i now get interested in the universe could anyone recommend some basic textbooks for me? i have a doctor degree in theoretical physics.
  26. B

    Special Relativity and Binary Star Systems

    Homework Statement Suppose that you decide to look at a known binary star system. The system is too far away to resolve the individual stars, so it appears to be just one point of light. By looking at the spectrum of the system, though, you should be able to use the Doppler shift to determine...
  27. T

    How to find mass of giant star?

    How would someone find the mass of an AGN when a solar luminosity is given? I know you can't simply use the mass-luminosity relationship since that only applies to main sequence stars, right? Thanks.
  28. R

    Trig Star Question: Solving Chord Lengths Problem 4

    Homework Statement Problem 4: http://www.nspsmo.org/_data/global/images/2010-11%20Sample%20Problems.pdf Homework Equations Second to last page in same document. The Attempt at a Solution I know how to solve everything but the minor chord lengths: CD, DE, EF The only thing I could think of...
  29. J

    How fast must this star be moving?

    Homework Statement How fast (as a percentage of light speed) would a star have to be moving so that the frequency of the light we receive from it is 11.0% higher than the frequency of the light it is emitting? Homework Equations (f_L)= (f_s)*(v+v_L)/(v+v_s) The Attempt at a...
  30. Evo

    Dark Shadows Star Jonathan Frid Dead at 87

    I used to watch Dark Shadows when I was little. I can still hear the music. RIP Barnabas. http://www.tvguide.com/News/Darks-Shadows-Star-Jonathan-Frid-Death-Obit-1046239.aspx Oooh, Johhny Depp as Barnabas, I can't wait!
  31. L

    Question about the formation of a massive star

    I have no problem with description of a small star's formation by gas and dust accretion. The problem I have is with a massive star. When enough material has accumulated to start the fusion of the star, a stellar wind will start and will clear away the gas and dust nearby. A heavier star would...
  32. marcus

    Role of triatomic H ion (H3+) in early star formation

    H3+ The original mothercloud was mostly H2 and He. It didn't have molecular species containing C, N, and O that are good at radiating away heat they pick up by jostling each other when the cloud contracts. So it was hard for the early clouds to contract by their own gravity, because they...
  33. B

    Can Star Positions Be Accurately Predicted?

    Can the star positions be predicted with any degree of accuracy? If so are there any variables that woukld dramaticaly challenge said predictions? I say they can be but i am being challenged on it and i don't have any sources to back it up. Anyone? Thanks i am just ! :shy: newbie and dummie...
  34. G

    Solving Star Resistor Configuration Problem

    Hi I am little confused by star resistors configuration. The problem is asking for equivalent resistor for the circuit. I have attached the image below (Image is little sloppy because I can't draw with a mouse :D). My logic is as follows: First I calculated R1 and R2 as parallel...
  35. S

    Intenal energy increase in wind of star ?

    Homework Statement If a big star gives of wind , forming shock and then a bubble .. And then this bubble is driven by pressure Also as the bubble expands the surrounding mass gets added to it Does it make sense for the Total energy to increase ? Homework Equations The Attempt at a Solution
  36. E

    Calculating Size of Star Image with Converging Lens

    An image of a point source (star) at infinity produces an image using a converging lens of diameter 50mm and focal length 500mm. Calculate the diameter of the resulting image.(take wavelengthof light to be 4x10^-7m) I ask this because it is to do with seeing stars through a telescope. I think...
  37. tom.stoer

    Neutron star temperature and cooling

    Is there a well-established theory for temperature and cooling processes of neutron stars as a function of time?
  38. D

    Estimation of central temperature of a star

    Problem: Relatively low mass stars can be shown to have their radii dependent on their mass as; R\proptoM1/2 From this, show that the temperature in kelvin at the centre of such a star can be estimated to be \approx24\times106(M/Msolar)1/2 Relevant Equations...
  39. T

    Futuristic space travel between star systems

    I am a writer of science fiction and I need to know some basics about space travel. I've read that it would take a ship 40 years to travel 1 parsec (3.26 light years) if the ship moved at 10% the speed of light. Does that sound right? Given that a futuristic ship could travel at this speed...
  40. O

    Uncertainty for a star being between two values

    I have a set a of stars, each of which have a magnitude in the K band ( K ) and a 1 sigma uncertainty ( dK ) associated with it. For a program I'm writing, I need to see whether each star lies within a maximum K magnitude (K_max ) and a minimum K magnitude ( K_min ). I also need to find a...
  41. A

    How do I find the age of a star?

    I'm a yr 12 student doing a full year research assignment and i have decided to find the age of the star, Sirius. I have access to a pretty good telescope and equipment but I am not sure where to start. Suggestions anyone?
  42. W

    Can a Neutron Star Fragment Become a Meteor and Survive on Earth?

    Neutron star is said to have masses so compact that 10 miles of it would have more mass than the sun. For example two neutron star collides, can a small fragment be separated from it forming a meteor? And if a small piece were to enter Earth atmosphere and reach land. Would the neutron star as...
  43. C

    Temperature of a star via its flux

    Homework Statement What is the temperature of a star if the flux at 450 nm is measured to be 1.3 times the flux at 650 nm Homework Equations To determine monochromatic flux I use: 2πhv3/c2 ex-1 x= hv/kT The Attempt at a Solution So basically I plug in the...
  44. B

    Rocket Pilot's Journey to a Star in 1 Year

    Homework Statement The pilot of a rocket wants to reach a star in 1 year. The rocket is currently on Earth. The star is 4 light years away, measured from an observer on Earth. What velocity is needed for the pilot to reach the star in a year in the pilot's/rocket's time? Homework Equations...
  45. Ivan Seeking

    Which Star Trek Captains Faced Personal Toll for Their Iconic Roles?

    http://www.imdb.com/title/tt1946421/ I almost had to force myself to watch this, but out of curiosity I did and was quite surprised. It drags at times but was often interesting. What I found to be most interesting was the central theme of the huge personal toll these rolls took on their...
  46. F

    Real pictures of black hole eating a star?

    I keep finding articles about the black hole that scientists at Berkeley found eating a star, live. I want to see the photos or video, or what the founders themselves looked at to deduce it was a black hole eating a star. Google is dead to me. Can't find crap.
  47. K

    When a star loses its mass, do the orbital radii of the planets increase?

    I remember reading an article on exoplanets which suggested that when a star loses its mass, the orbital radii of the planets orbiting it increase. Apparently this makes it easier to identify such planets as they are now further away from their star. What I would like to know is, what...
  48. K

    Calculating Entropy of a Star using Heat Capacity

    Homework Statement Using the viral theorem, the heat capacity of a star is given as C=-3*k/2. Using this, I need to calculate the entropy of a star in terms of the average temperature T, then in terms of U (total energy). Homework Equations dS=C*dT/T The Attempt at a Solution To...
  49. X

    Astrophysics: Finding flux of a star given magnitude

    Homework Statement The faintest stars a naked eye can see under the ideal conditions are of m = 6 magnitude. Diameter of a maximally dilated pupil is d = 9mm. Calculate the magnitude of the faintest star a person can see if observing through binoculars (d = 5cm), a large backyard...
  50. U

    How massive/hot does a star have to be for fusion to occur

    without having to rely on quantum channeling
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