by dougettinger » Tue Feb 01, 2011 5:52 pm
I will answer my own questions after reviewing stellar evolution, planetary nebula, and some other topics. Please correct me
if the following summary is grievously incorrect.
Let M/o = solar mass.
1. Sub-stellar objects are less than 2.5 x 10(28) kg or 0.08 M/o and may be called planets.
2. Brown dwarfs range from 2.5 x 10(28) kg to 1.6 x 10(29) kg or greater than 13 Jupiter masses
3. Low-mass red dwarfs are from 1.6 x 10(29) kg to less than 0.5 M/o.
4. Mid-size yellow dwarfs are from 0.5 to 1.5 M/o.
5. Massive blue-white stars are from 1.5 to 10 M/o.
6. Super-massive stars are from about 10 to 120 M/o where outer layers no longer be retained due to the thermal energy.
7. Unusually super-super massive stars have been observed from 120 to 200 M/o. These stars are short-lived, have huge stellar winds, and continually blow-off their outer layers.
Hence, the summary of stellar remnants follows:
1. White dwarfs come from Main Sequence stars that are from 0.5 to 1.5 M/o and accompanied by red giants.
2. White dwarfs come from mass transfer in binary star systems are less than but not much greater than 1.4 M/o.
3. Neutron stars come from 1.35 to 2.0 M/o.
4. Quark stars come from 2.0 to 3.0 M/o. ( A recently new theory of neutrons breaking down into quarks.)
5. Black holes come any star greater than 3.0 M/o.
6. Planetary nebulae come from about 0.8 to 8.0 M/o.
7. Supernova remnants come from any star greater than 3.0 M/o.
Doug Ettinger, Pittsburgh, PA 02/01/11
I will answer my own questions after reviewing stellar evolution, planetary nebula, and some other topics. Please correct me
if the following summary is grievously incorrect.
Let M/o = solar mass.
1. Sub-stellar objects are less than 2.5 x 10(28) kg or 0.08 M/o and may be called planets.
2. Brown dwarfs range from 2.5 x 10(28) kg to 1.6 x 10(29) kg or greater than 13 Jupiter masses
3. Low-mass red dwarfs are from 1.6 x 10(29) kg to less than 0.5 M/o.
4. Mid-size yellow dwarfs are from 0.5 to 1.5 M/o.
5. Massive blue-white stars are from 1.5 to 10 M/o.
6. Super-massive stars are from about 10 to 120 M/o where outer layers no longer be retained due to the thermal energy.
7. Unusually super-super massive stars have been observed from 120 to 200 M/o. These stars are short-lived, have huge stellar winds, and continually blow-off their outer layers.
Hence, the summary of stellar remnants follows:
1. White dwarfs come from Main Sequence stars that are from 0.5 to 1.5 M/o and accompanied by red giants.
2. White dwarfs come from mass transfer in binary star systems are less than but not much greater than 1.4 M/o.
3. Neutron stars come from 1.35 to 2.0 M/o.
4. Quark stars come from 2.0 to 3.0 M/o. ( A recently new theory of neutrons breaking down into quarks.)
5. Black holes come any star greater than 3.0 M/o.
6. Planetary nebulae come from about 0.8 to 8.0 M/o.
7. Supernova remnants come from any star greater than 3.0 M/o.
Doug Ettinger, Pittsburgh, PA 02/01/11