Massive stars eventually form cores of_______________ before exploding as type II supernovae.
Massive stars eventually form cores of_______________ before exploding as type II supernovae.
Homework Answers
Massive stars eventually form cores of IRON NICKEL
before exploding as type II supernovae.
The star fuses starting from hydrogen,helium until the iron ,nickel has been formed before typeii explosion of supernova
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Massive stars eventually form cores of_______________ before
exploding as type II supernovae.
Neutron stars are created when giant stars die in supernovas and their remaining cores collapse to...
Neutron stars are created when giant stars die in supernovas and their remaining cores collapse to a state of immense density where protons and electrons combine to form neutrons. A neutron star is ~1.4 times as massive as the sun and has radius of only ~10 km. For this neutron star compute its escape velocity. What percentage of the speed of light does this correspond to? (Assume for the mass of the sun, M = 1.989 x 10^30 kg).
Which stars are fusing hydrogen to helium in their cores? Group of answer choices III (the...
Which stars are fusing hydrogen to helium in their cores? Group of answer choices III (the Sun) I, II, III, IV, and V II and IV I, III, and V I, II, and IV
What is the reason for two stars to have the same brightness but one being 100...
What is the reason for two stars to have the same brightness but one being 100 times more luminous than the other? One of them is 100 times more distant One of them is 10 times more distant One of them is 1000 times more distant One of them is 4π times more distant The Brightness scale like the inverse of the square of the distance (1/R2) T F What is parallax? The distance of a star A method to...
In one fusion reaction that occurs in the cores of certain stars, a nucleus of helium-4...
In one fusion reaction that occurs in the cores of certain stars, a nucleus of helium-4 (4He, with two protons and two neutrons) fuses with a nucleus of neon-20 (20Ne, with 10 protons and 10 neutron) to form a nucleus of magnesium-24 (24Mg, with 12 protons and 12 neutrons). A gamma-ray photon (γ) is also produced: 4He + 20Ne → 24Mg + γ (a) Rank the following nuclei in order of their binding energy per nucleon, from largest to smallest....
Circle the correct statements 8. 5ptsBlackholes: Blackholes are the remnants of the most massive stars, formed...
Circle the correct statements
8. 5ptsBlackholes: Blackholes are the remnants of the most massive stars, formed after their supernovae explosions. Supermassive blackholes, which may form by mergers of stellar blackholes, are thought to reside at the center of nearly all galaxies. (a) The size of its event horizon (within which even light cannot escape its gravity) is deter- mined by the mass, and is known as Schwarzschild radius. (b) According to general relativity, the space-time continuum is distorted by gravity...
Stars form from the gravitational collapse of clouds of interstellar ("between the stars") gas. To simplify...
Stars form from the gravitational collapse of clouds of interstellar ("between the stars") gas. To simplify the situation, assume that a single star forms from a uniform, spherical cloud of gas of mass 2.0 x 1030 kg and radius 1.0 x 1013 m. 2. Before it begins to collapse, the cloud is rotating with a period of 1.4 million years. What is the angular speed of the cloud? (2.26 × 10-14 rev/s) The cloud eventually collapses to form a star...
The temperature of the universe needs to be around 100 K before stars can form. At what redshift is the temperature 98 K? The temperature of the universe needs to be around 100 K before stars ca...
The temperature of the universe needs to be around 100 K before stars can form. At what redshift is the temperature 98 K?
The temperature of the universe needs to be around 100 K before stars can form. At what redshift is the temperature 98 K?
Could one of the stars listed in the table above be an RR Lyrae star?
Cosmic DistancesDISTANCE MODULUS- For this lab, we will focus on two techniques that can be used to measure the distance modulus of objects in deep space - supernovas and Cepheid variable stars. Before we begin, though, we must understand what "distance modulus" means.- Read through the background material on distance modulus.- Use the distance modulus page to complete the following table:ObjectApparent Magnitude (m)Absolute Magnitude (M)Distance Modulus (m-M)Distance (pc)Star A2.410Star B516Star C1025Star D8.50.5- Could one of the stars listed in the...
Stars much heavier than our sun will not form white dwarf, but collapse further, becoming (if con...
Stars much heavier than our sun will not form white dwarf, but collapse further, becoming (if condition are right) neutron stars. They result from the supernova explosion of a massive star, combined with gravitational collapse, that compresses the core past white dwarf star density to that of atomic nuclei. Eventually neutron degeneracy pressure stabilizes the collapse, just as the electron does for white dwarfs. The Fermi Energy is given by where Z/A =1 and V corresponds to volume. The neutron...
Stellar nuclear fusion begins with 1H and ends with 56Fe. Younger stars fuse hydrogen to form...
Stellar nuclear fusion begins with 1H and ends with 56Fe. Younger stars fuse hydrogen to form 4He, while older, more massive stars fuse Helium to form heavier elements. Fusion beyond 56Fe is impossible because iron-56 has the greatest binding energy per nucleon. Calculate the binding energy per nucleon of 56Fe and use it to calculate the maximum total energy per mole of 56Fe that could be released through nuclear fusion. What percentage of the maximum total energy is released by...
Circle the correct statements
8. 5ptsBlackholes: Blackholes are the remnants of the most massive stars, formed after their supernovae explosions. Supermassive blackholes, which may form by mergers of stellar blackholes, are thought to reside at the center of nearly all galaxies. (a) The size of its event horizon (within which even light cannot escape its gravity) is deter- mined by the mass, and is known as Schwarzschild radius. (b) According to general relativity, the space-time continuum is distorted by gravity...
Stars form from the gravitational collapse of clouds of interstellar ("between the stars") gas. To simplify the situation, assume that a single star forms from a uniform, spherical cloud of gas of mass 2.0 x 1030 kg and radius 1.0 x 1013 m. 2. Before it begins to collapse, the cloud is rotating with a period of 1.4 million years. What is the angular speed of the cloud? (2.26 × 10-14 rev/s) The cloud eventually collapses to form a star...
The temperature of the universe needs to be around 100 K before stars can form. At what redshift is the temperature 98 K?
The temperature of the universe needs to be around 100 K before stars can form. At what redshift is the temperature 98 K?
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