This is an excellent question!
All the heavier elements past hydrogen and helium (and traces of lithium, beryllium, and boron) are NOT as old as the universe. Instead they have been synthesized inside stars; it is energy from nuclear fusion of light elements into heavier ones that powers stars. Stars on the main sequence, like the Sun, take hydrogen and fuze it into helium; once the Sun has sun out of hydrogen in its core it will begin turning helium into carbon, nitrogen,and oxygen, and become a red giant.
Our sun will not evolve past burning helium into carbon, but higher-mass stars will continue to synthesize heavier and heavier elements, and explode as supernovae once they have converted a mass of more than 1.4 times the mass of the Sun into iron. Pull out a Periodic Table; the elements up to iron are made in stars, and release energy when they are made. Everything past iron costs energy to make, and so is only produced in supernovae, and in the neutron-capture reactions in a special type of red giant star called an asymptotic giant branch (AGB) star.
When a high-mass star explodes as a supernova, it throws most of its mass back in to interstellar space. The same is true of AGB stars, which puff off their outer layers, forming so-called planetary nebulae. In either case, there are heavy elements (metals) being put in the interstellar medium. New stars are formed out of the gravitational collapse of cold gas and dust clouds which are just regions of denser interstellar medium. So, the heavy elements made in old stars get recycled into new stars! We know that the material that makes up the Earth was once inside a massive star; our solar system is 'recycled' from several previous generations of massive stars. Old stars formed much earlier in our galaxy's history are made of material that hasn't been recycled through as many generations of stars, so these stars contain less metals. We call these old stars 'Population II" stars, while metal-rich stars like our Sun are "Population I". There is active research trying to find primordial "Population III" stars, which are first-generation stars that contain no material that has been through a supernova.
By they way, note that this means YOU are made out of stars! They hydrogen in you is from the beginning of the universe ~13 billion years ago, while the carbon, oxygen, nitrogen, calcium, phosphorous, potassium, etc. are all from the interior of long-dead stars.
Following the Big Bang, all stars originally were composed only of hydrogen, and as nuclear fusion progresses, heavier elements are gradually cooked up. The longer this process continues, the more heavy elements there will be. Newer stars wind up having the most metal content, because they form out of older interstellar gas clouds, which have been enriched through the explosion of older stars. So, the older content, in the form of metals (and other heavier elements) is paradoxically found in the newer stars.
New stars
Red Dwarf stars are the commonest in the Galaxy. Red Dwarf stars last much longer than blue stars for example. So you would expect to find more of these red stars. You need a telescope to see them, but they are very common.
Hydrogen and helium are the most abundant elements in stars.
The most abundant type of stars is red dwarves.
No
Hydrogen is the most abundant element in the universe and makes up the majority of all stars.
new starssource: Why_are_metals_less_abundant_in_older_stars_than_in_younger_stars
Rife = Abundant, filled with It was so dark and clear that the sky was rife with stars.
Hydrogen: stars universes every thing has it
'The Stars and Stripes Forever' is likely to be played on patriotic occasions, when marching bands perform, and at formal military ceremonies.
In nearly all stars, hydrogenis the most abundant element and it is consumed in a nuclear reaction that power stars.
Earth and Venus. From Earth Venus and Mercury are planets visible as "morning" and "evening" stars. From Venus, Mercury would appear in the morning and evening sky. From Mars I would expect Earth, Venus, and Mercury to all be morning and evening "stars."
Hotels are rated by stars so you know what to expect from that hotel when you book it.