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. T

    Stargazing Could a very large telescope see a star as a disk?

    Hi When I was a kid, the largest telescope was Mt Palomar, a little over 5 meter diameter mirror. In spite of its large size, I always read that stars appeared as points of light through the scope if it were used visually, i.e. stars are too small and too distant to appear as disks. However...
  2. Ivan Seeking

    Artificial Telekinesis - The Star Wars Force Trainer

    "Artificial Telekinesis" - The Star Wars Force Trainer Seems to be legit. I have been aware of work with this technology, but I think this is the first commercial product that I've seen. https://www.youtube.com/watch?v=LJbIGJrQK84 In fact the toy seems to have been around for a time...
  3. S

    How Do Astronomers Determine the Distance to a Star Cluster?

    Homework Statement An astronomer measures B and V for a large number of stars in a particular star cluster. (All stars in a given star cluster are at essentially the same distance from the Earth.) She then corrects B and V for interstellar absorption, and plots the resulting value of V for...
  4. A

    Velocity required to reach star in 10 onboard years

    Homework Statement You wish to travel to the Pleiades (at a distance of 130 pc) in 10 years, according to the clock that you carry. How fast do you have to travel to accomplish this (express the velocity as a fraction of speed of light, v/c)? Homework Equations \Delta T...
  5. B

    Universal gravitation to find the mass of a star

    A distant star has a single plante orbiting at a radius of 3.51X10^11m. The period of the planet's motion around the star is 853 days. What is the mass of the star? The universal gravitational constant is 6.67259X10^-11N m^2/kg^2. Answer in kg. Alrighty. So I tried to find the mass by using...
  6. Helios

    Star Trek Dream Team: Arnold, Seagal, Falk, Carrey, Lee, Theodore, Whoppi

    Think of a Star Trek dream team. Here's one that I made hastily. KIRK: Arnold Schwarzenegger SPOCK: Steven Seagal MCCOY: Peter Falk SCOTTY: Jim Carrey SULU: Bruce Lee CHEKOV: Brother Theodore UHURA: Whoppi Goldberg Wait! Whoppi was on the new ST. Jim Carrey would be funny being...
  7. Barnak

    Star populations by spectral classes and masses

    I need the % of stars in our galaxy, sorted by spectral classes and also by masses. Is there any such information somewhere ?
  8. B

    Energy to completely ionize gas in star

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  9. P

    Star generatations making elements

    How many generations of stars were required to make the elements found on Earth. In other words, does a star have to be born with heavier elements for some even heavier elements to form?
  10. B

    Density of a Star: Calculating Mass & Average Density

    Homework Statement For a star of mass M and radius R, the density increases from the centre to the surface as a function of radial distance r, according to \rho = \rho_{c}[1-(\frac{r}{R})^2] where is the central density constant. a) Find M(r). b) Derive the relation between M and...
  11. N

    How Does a Star's Diameter Change with Rotation Period?

    Homework Statement A star of mass 1.81×1031 kg and diameter 8.10E+9 m rotates with a period of 25.0 days. Suddenly the star changes size, and rotates with a new period of 18.0 days. Assuming a uniform density both before and after the size change, what is the new diameter of the star...
  12. N

    How Does a Star's Diameter Change with Its Rotation Period?

    Homework Statement A star of mass 1.81×1031 kg and diameter 8.10E+9 m rotates with a period of 25.0 days. Suddenly the star changes size, and rotates with a new period of 18.0 days. Assuming a uniform density both before and after the size change, what is the new diameter of the star...
  13. Barnak

    Mass of star as function of Luminosity, Temperature and size

    Hello all, First, since I'm just a physics teacher, and not an astrophysicist, my questions may sound "obscure" or badly formulated. Especially since I'm not an English native speaker. Sorry about that :shy: I need a mathematical relation which could give the mass of a "theoretical" star as...
  14. N

    Is Earth's Distance from the Sun the Key to Life on Our Planet?

    I have, through general observation, theorized what I believe to be a logical explanation for the appearance of life on Earth. Although to me, this theory seems to provide a logical and rational explanation for the question of how life appeared on Earth, I have very little knowledge of Physics...
  15. J

    Neutron Star Collisions: Effects & Stages

    when two neutron stars collide, do they creat both a balck hole and release gamma rays or does it happen in stages?
  16. Z

    Which star has the greater luminosity

    Homework Statement Question 1 - If two stars A of luminosity 9000 and B of luminosity 90 (both relative to the Sun) appear equally bright from the Earth, how much further away is A from B? Question 2 - Star A is twice as bright as Star B, but B is twice as far away as A. Which star has...
  17. J

    Calculating Hydraulic Pressure in a Neutron Star

    Homework Statement Assuming a neutron star is made from an incompressible material, what is the hydraulic pressure 50m below the surface? Mass = 1.98x10^30kg Radius = 10km 2. The attempt at a solution g=GM/r^2 = (6.67x10^-11 x 1.98x10^30)/ 10000^2 = 1.32x10^12 m/s^2 P=P_{0} + \rhogh Pa...
  18. J

    Changes in planet orbits as a star (eg. the Sun) decreases is mass.

    Hi, I'm actually a Design Engineer but I find the topic of Relativity extremely interesting and I was wondering if somebody could give me some guidance on this. If Planets and Stars (due to their mass) 'warp' Space-Time then this means that our Sun distorts the fabric of space just like a...
  19. Astronuc

    What Caused the Ejection of Mu Columbae and AE Aurigae from Orion?

    I was listening to the regional NPR station yesterday and hear a brief discussion of two binary systems. http://stardate.org/radio/program.php?f=detail&id=2009-12-26 Is this common? Is it plausible? I presume that some how the velocity of Mu Columbae and the other star traveling 'north'...
  20. S

    Binary Star system common period

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  21. marcus

    Super-earth transiting nearby star

    http://arxiv.org/abs/0912.3229
  22. T

    Can a Faint Star Be Detected If Its Counts Are Less Than the Noise Level?

    Homework Statement after subtracting the bias level from your count, you get a value of (N). to find the noise, you calculate sqrt(N) = noise. now the question, As above, your image has a noise of sqrt(N). What can you say about the presence of a faint star in the image that has a total...
  23. V

    Find Apparent Magnitude of Binary Star System w/o Distance

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  24. K

    Astrophysics: Finding the mass of a hidden star in a binary system

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  25. U

    Calculate Star Mass from Radius: An Integration Approach

    Sorry no one was answering my question, and I just wanted to get this done: Homework Statement ...Hence show that the mass of the star is M = 4\pip_{c}\left(R^{3}/3 ) Homework Equations M(r) = 4 \pip_{c}\left(r^{3}/3 - r^{4}/4R) This is the mass within a radiusThe Attempt at a Solution I...
  26. U

    What is the formula for calculating the mass of a star in astronomy?

    Homework Statement ...Hence show that the mass of the star is M = 4\pip_{c}\left(R^{3}/3 ) Homework Equations M(r) = 4 \pip_{c}\left(r^{3}/3 - r^{4}/4R) This is the shell massThe Attempt at a Solution I already found the shell mass via intergration, and I know that I have to build up an...
  27. D

    The Light From a Star: Comparing Photons & Travel Distance

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  28. C

    How Do You Calculate Orbital Speed in Different Galactic Density Models?

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  29. M

    Why do stars orbit around a spiral galaxy in a rosette shape?

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  30. A

    How to Model an Isothermal Core in a Simplified Star?

    Homework Statement Let’s make an idealized star model with two parts: an isothermal helium core, and pure hydrogen layers outside the core. The core represents the part where hydrogen has already been burned. Mathematically this represents the simplest model that might resemble a...
  31. D

    Can a photon catch up to your eye within a black hole?

    I understand that a great number of star's we see are no longer there (now dead)we are just seeing the light traving from them over the vast distense of space, Question If I were looking into the sky at night and seeing start light from a now Dead star and someone else (you) at the same time...
  32. S

    What is the solar radius of Rigel and Procyon B?

    A star's surface sends out energy in form of electromagnetic radiation and has an emissivity close to 1. Find the solar radius of Rigel that emits energy at a rate of 2,7 * 10^32W and has a surface temperature of 11000K. You may assume the star is spherical. Attempt at solution: Formula for...
  33. T

    Is Star Formation Just a Matter of Lag Time?

    it is known that there is considerable lag time when light travels from some place and reached us her on earth. is it possible that what we consider to be star formation actually nothing more than us receiving their light for the first time? thanks in advance.
  34. Spinnor

    Nuetron star collapses to B.H., a final plunge of matter and energy?

    The moment before a neutron star collapses matter is distributed across the whole volume of the neutron star? Can we say anything of the actual collapse, such as matter moves towards the center of the neutron star?
  35. Spinnor

    Slowly add mass to a neutron star till it collapses.

    Say we slowly add mass to a neutron star till it collapses to a black hole. Just before it does has time in the neutron star almost come to a stop? Is the passage of time different for different locations in the neutron star just before it collapses? Would the strings of string theory come to a...
  36. C

    How Do You Calculate the Central Pressure of a Star?

    Homework Statement I'm to prove that the central pressure of a particular star is Pc = (15/16\pi)(GM2/R4) I am given the density as a function of r \rho(r) = \rho0[1 - (r/R)2] In part a I found the Mass by integrating the equation of hydrostatic equilibrium and found M =...
  37. F

    Binary star system distance between stars

    Homework Statement A binary star system has a period of 90 days. It consists of two equally massed stars each with a mass of twice that of the sun, that rotate like a dumbbell about the center of mass at the midpoint between them. How far apart are these stars? Homework Equations F =...
  38. D

    How can you estimate mass of star?

    Is there a way to estimate the mass of a star using Spectral Class and absolute magnitude? If you can't then what info do I need in order to so. Thanks, Dan
  39. K

    Hollow spherical shell of gas around a star

    Homework Statement f the Sun's atmosphere increased in temperature with radius at and above the photosphere, how would our observation of the solar spectrum be different? b) Consider a spherical hollow shell of gas around a star. If you observe this shell to produce a bright ring around the...
  40. L

    Binary star system ratio of force

    Homework Statement 2 stars rotating around the common centre of mass have masses m and 3m. What is the ratio of the force due to each star at the common centre of mass. Homework Equations None The Attempt at a Solution I tried to find the centre of mass and applied Newtons law of...
  41. C

    Binary Star Analysis: Mass Calculation from 10pc, 33yr Period, i=90°

    Homework Statement We observe a binary system in which the two stars are 1 and 2 arc sec, respectively, from the center of mass. The system is 10pc from us. The period is 33 yr. What are the masses of the two stars, assuming that i=90 degrees? Homework Equations The Attempt at a...
  42. A

    Any good CFD tutorials for stardesign and star CCM out there?

    Im really trying to learn CFD since embry riddle does not have a good course for undergrads to learn some basics about viscous flow..Im really trying to learn CFD since aerodynamics in general interests me alot. Does anyone have good resources to learn some CFD software ( namely star design ...
  43. C

    Total energy of matter of a star

    Homework Statement Suppose I have a spherically symmetric static star. What is the total energy of (baryonic) matter inside the star? Homework Equations The metric is (parametrizing as in Weinberg): ds^2=-B(r)dt^2+A(r)dr^2+r^2d\Omega^2 I assume the energy-momentum tensor of a...
  44. G

    Gravitational Potential Energy of Envelope around star

    I am confused about this question: A giant star has a radius of 200 Rsun, with core of mass 0.6 Msun surrounded by an extended envelope of mass 0.2 Msun. (a) Estimate the gravitational potential energy of the envelope. When it says the envelope, does this mean the 'shell' surrounding...
  45. G

    Estimating Central pressure in Star

    I have a question in an assignment that says "Estimate the central pressure of 0.5, 1.0, and50 solar mass stars. Compare these pressures to the central pressure of the sun" I can estimate for the sun using the Hydrostatic equilibrium equation: dP/dr = -GM(r)p(r)/R^2...
  46. G

    Lower Limit of central pressure in Star

    Hello, I was given a question in school that says use the hydrostatic equilibrium equation and mass conservation equation to come up with a lower limit of the central pressure of a star at it's centre. Here is how I think: 1) Refer to the density in both equations as the same and sub...
  47. A

    Giant Ringed Star: Could it Exist in the Galaxy?

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  48. I

    Star Catalogs within 200 LY of Earth - Needed in Table Format

    I am looking for star catalogs of stars within 200 lys of Earth for a project I am working on. I would like to have them as .csv, but any table format should do. I'll need such info as name, dist, mass, luminosity, spectral type, galactic coords or RA and Dec., radius. So far my attempts at...
  49. M

    Neutron star collapse can produce GBBs?

    If a neutron star accumulate materials from its companion star ,then it's mass exceeded Tolman–Oppenheimer–Volkoff limit, it will collapse into a black hole! My question is ,in this case ,it will produce "gamma-ray burst"?
  50. T

    Question on neutrino emission machanism in neutron star

    How many neutrino emission mechanism, that causes the cooling of star, are there in neutron star? And How, what equation, to calculate the emissivity of each mechanism? thankfully, First
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