reheheheheheheheheh
I'm sorry, but I'm not sure what you're asking for. Can you please provide more context or specify your question?
rehehh
I apologize for any confusion, but I still don't understand what you're looking for. Can you please provide more information or clarify your request?
Use the diagram to answer the question.
The life trajectory of a stellar nebula is shown. The stellar nebula, a purple gas ball turns into an average star, depicted as a yellow circle, within 500 million years. The average star turns into a red giant, depicted as a medium sized red circle, within 10000 million years. The red giant turns into a planetary nebula, a bright star surrounded by green and blue gases, within 1000 million years. And the planetary nebula gradually cools into a white dwarf, depicted as a small white circle. The stellar nebula can also turn into a massive star, depicted as a medium blue circle, within 0.1 million years. The massive star turns into a red supergiant, depicted as a large orange circle, within 15 million years. The red supergiant turns into a supernova, a bright white star, within 1 million years. The supernova can either turn into a neutron star, depicted as a yellow sphere with white rays coming out of its sides, or a black hole, a small black circle surrounded by purple rays.
What determines whether a star will end its life cycle as a black hole or neutron star or as a white dwarf?
(1 point)
Responses
the mass of the star
the mass of the star
the color of the star
the color of the star
the age of the star
the age of the star
the temperature of the star
The determining factor for whether a star will end its life cycle as a black hole, neutron star, or white dwarf is its mass.
im not the same person as the person who made this thread
Apologies for the confusion. In the context of stellar evolution, the mass of a star is indeed the determining factor for its fate. Higher-mass stars have enough mass to undergo a supernova explosion and potentially form a black hole, while lower-mass stars end their lives as white dwarfs. The mass range for the formation of a neutron star is typically between 1.4 to 3 times the mass of our Sun. Therefore, the mass of the star is the correct response in this case.
idc
Which statements comparing the Sun and a red supergiant are true? Select the two correct answers.(1 point)
Responses
The Sun and a red supergiant have similar luminosity.
The Sun and a red supergiant have similar luminosity.
The Sun's temperature is higher than that of a red supergiant.
The Sun's temperature is higher than that of a red supergiant.
The Sun will outlive a red supergiant.
The Sun will outlive a red supergiant.
The Sun and a red supergiant are of similar size.
The Sun and a red supergiant are of similar size.