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Do subatomic particles have gravity?
Yes, subatomic particles like electrons, protons, and neutrons have mass, which means they do have gravity. Gravity is a fundamental force that affects all objects with mass, regardless of their size.
What has a dense core of neutrons that remains after a supernova?
A dense core of neutrons that remains after a supernova is known as a neutron star. It forms when the core of a massive star collapses under gravity after exhausting its nuclear fuel, causing the protons and electrons to combine into neutrons. Neutron stars are incredibly dense, with a mass greater than that of the sun compressed into a sphere only about 20 kilometers in diameter. They often exhibit strong magnetic fields and can rotate rapidly, leading to the emission of beams of radiation that may be detected as pulsars.
What causes black holes to form?
Black holes are formed when massive stars collapse under their own gravity at the end of their life cycle. As the core of the star collapses, it creates a dense region with gravity so strong that not even light can escape, known as a black hole.
Which two subatomic particles have an attractive force?
There are four fundamental forces known in the universe:GravityElectromagneticStrong ForceWeak ForceDifferent subatomic particles are attracted to each other depending upon the force in question. Gravity is so weak that it does not play a role in the subatomic world..ElectromagneticProtons are attracted to electrons..StrongProtons and neutrons are attracted to other protons and/or neutrons inside the nucleus..WeakQuarks are attracted to other quarks and to electrons/positrons inside protons and neutrons
How does the supernova transform into its next faze?
After a supernova explosion, the remnants can evolve into a neutron star or a black hole, depending on the mass of the original star. In the case of a neutron star, the core collapses under gravity, compressing protons and electrons into neutrons, while the outer layers are expelled into space. If the core is massive enough, it can collapse further into a black hole, where gravity is so intense that not even light can escape. The ejected material from the supernova also enriches the surrounding interstellar medium with heavy elements, contributing to the formation of new stars and planets.
What is formed by a star that collapses under gravity to the point that its electrons and protons form neutrons?
A neutron star.neutron star
Does gravity contain electrons or neutrons?
Both electrons and neutrons have (rest) mass, thus the are affected by gravity and produce a gravitational attraction.
What is gravity measured neutrons protons newtons or electrons?
Newtons.
How can one create a neutron star?
A neutron star is created when a massive star collapses under its own gravity during a supernova explosion. The intense pressure and heat cause protons and electrons to combine, forming neutrons. This results in a dense core of neutrons, which is the neutron star.
How many electrons in a sodium ion?
None. The electrons are not in the nucleus for any atoms. They swirl around the nucleus in space but do not enter the nucleus. If electrons are squeezed into nuclei of atoms through gravity in supermassive star collapses, they fuse with protons and become neutrons. Sodium has 11 protons and usually 12 neutrons in their nuclei but no electrons.
Do subatomic particles have gravity?
Yes, subatomic particles like electrons, protons, and neutrons have mass, which means they do have gravity. Gravity is a fundamental force that affects all objects with mass, regardless of their size.
What is a very small dense remnant of a supernova explosion composed mostly of neutrons?
A very small, dense remnant of a supernova explosion composed mostly of neutrons is called a neutron star. Neutron stars are formed when the core of a massive star collapses under gravity after it exhausts its nuclear fuel, leading to a catastrophic explosion. These stars are incredibly dense, with masses greater than that of the Sun compressed into a radius of about 10 kilometers. Their extreme density results in the formation of neutrons from protons and electrons, giving them their name and unique properties.
What has a dense core of neutrons that remains after a supernova?
A dense core of neutrons that remains after a supernova is known as a neutron star. It forms when the core of a massive star collapses under gravity after exhausting its nuclear fuel, causing the protons and electrons to combine into neutrons. Neutron stars are incredibly dense, with a mass greater than that of the sun compressed into a sphere only about 20 kilometers in diameter. They often exhibit strong magnetic fields and can rotate rapidly, leading to the emission of beams of radiation that may be detected as pulsars.
Explain how does neutron star come into being?
A neutron star is formed when a large star collapses from gravity, but, the star is able to cling on to life because as it collapses, the neutrons in the atoms that make up the star repel each other, pushing outwards against the gravitational force, keeping the star alive, but incredibly dense.
What keeps electrons close to te nucleus?
Electrons are not shot off because the e- (which are negative) have an electromagnetic force hold with the protons (positive) in the centre. This attraction is also because of gravity and the force of attraction (as protons/neutrons are significantly heavier than electrons) it creates.
As the cloud collapses the force of gravity drawing the cloud inward because?
As the cloud collapses the force of gravity drawing the cloud inward gradually becomes stronger because the strength of gravity follows an inverse square law with distance. hope that helps.
What causes black holes to form?
Black holes are formed when massive stars collapse under their own gravity at the end of their life cycle. As the core of the star collapses, it creates a dense region with gravity so strong that not even light can escape, known as a black hole.
