G'day NoelC,
You wrote:
I keep hearing that the "big bang" supposedly left us with primarily hydrogen and helium, and that all other heavier elements ("metals" in star-speak) have been made in stars or supernovae...
That is the big picture, the main distribution of baryonic matter, the 4% matter known. In ordinary stars H is converted (fused) into He. When stars get hotter during the autumn of their life, they convert He into C and O. Still later towards and within the winter of their life, Si and Fe can be produced, the metals you mention.
NoelC wrote:The glowing teal-colored oxygen in Tony's image seems to be part of the interstellar medium, glowing possibly as a result of compression, and not part of the material coming off the Wolf-Rayet star. Perhaps I'm wrong here, but if not:
The explanation of our APOD masters at
todays APOD mentions the release of one solar mass per 10 ky. The glowing matter you see is IMO part of the 'shedding' of the central star.
Lets assume that what you see is the interstellar gas glowing. The density of interstellar gas is roughly 1 particle per cm³, or 1E6 particles per m³. Further follow our APOD masters: the glowing object is 25 ly in diameter (I assume a sphere). 1 ly is approximately 1E16 m, so the volume of this sphere is of the order of 1E47m³. That means 1E53 particles. 1E24 particles give one mole, so within the sphere there are 1E29 moles of interstellar gas. Lets follow
your assumption: the interstellar gas is made of (neutral) oxygen. 1 mole of neutral oxygen has a mass of 0.01 kg, so the mass of the particles within the sphere is 1E27 kg, Jupiter alike mass. The mass of the sun is 2E30 kg. IMO interstellar gas is mainly neutral hydrogen, emitting 21 cm radio waves, but one order of magnitude less in mass. The mass of the insterstellar stuff within the sphere is then 1E26 kg, a mass similar to Neptune.
Now the (mostly mine) speculations are brought into the arena. Lets assume the shedding is taking place for at least 100 years. It must be more than 25 years, otherwise we could not see all parts of the glowing bubble. A mass of 2E28 kg would have been shedded during a period of 100 years. That is one to two orders of magnitude more than the interstaller gas. A logical conslusion is that due to such a difference in density the shedded gas will "outglow" the interstellar gas.
IMHO neither of your three points is the case, since you could re-assess your assumption about what you see in the image: the interstellar gas or the shedded gas.
Nevertheless your thoughts triggered a philosophical question. On earth, the moon, Venus, Mercury, Mars and the moons of the gas giants Silicon seems to the the abundant element. Si is one of the elements in the nuclear fusion chain of stars. Fe (Iron) is the last one. So there must be somewhat more Si than Fe. Nevertheless the abundancy of Si is overwhelming. Why are our beaches made of silicon oxide and not of grains of rust (iron oxide)?