Where are elements heavier than iron primarily synthesized and distributed?
Answer
Within the supernova shockwave
The extreme temperatures and pressures generated within the supernova shockwave are responsible for creating many elements heavier than iron, which are then seeded back into the galaxy.
Related Questions
What is a typical surface temperature criterion for defining blue stars?How long does a blue supergiant typically live before exhausting core hydrogen fuel?What element is produced in the final stage of the internal layering process before core collapse?Why does the stage where the core produces iron signal the inevitable end of a massive star?What process leads directly to a black hole without a visible rebound explosion in the most massive blue supergiants?What causes the violent rebound that generates a supernova shockwave in less massive blue giants?What type of supernova is the death process of blue behemoths often categorized as?If the compact core remnant falls into what mass range, does it typically form a neutron star?Where are elements heavier than iron primarily synthesized and distributed?What is the final remnant left behind by a star similar in mass to the Sun?What physical support fails when the iron core grows too massive, initiating core collapse in a massive star?