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Either a black hole, or a neutron star. That depends on how much mass is left after the supernova explosion.
Long term exposure to harmful genotoxic chemicals or ionizing radiation can cause changes in the base sequence of DNA
Actually if a star is medium or low mass is will run out of fuel and turn into a red giant, once the stars atmosphere slowly drifts away and the core is remaining it will eventually become a white dwarf For more massive stars it will turn in to a super giant the will cause a supernova, after the supernova the star can either a black hole or a neutron star
a change in the sequence of amino acids. -P
A pulsar is a neutron star that rotates and sends a beam of electromagnetic radiation. This is known because only a very dense source of such radiation would be capable of rotating that quickly without disintegrating.
Either a black hole, or a neutron star. That depends on how much mass is left after the supernova explosion.
If you mean the stars smashing together:Yes AND No, yes if the stars are neutron stars, they'll go supernova and cause a black hole.. or if the stars are white dwarf and bigger stars,no if the 2 stars are yellow main sequences. if main sequence yellows they'll make a blue star or a blue straggler.
do you know what a neutron planet is if you do could you tell me cause i don't bye
A supernova can cause either a neutron star or a black hole. (Black holes are caused by big stars suck as a red supergiant or a blue supergiant) :)
There are two types of "pulsating" stars. 1. Pulsar 2. Quasar A pulsar is actually a neutron star that is rotating at a fast rate and is releasing a jet of X-rays. So, to a special telescope, it appears to be pulsating A quasar is similar to a pulsar, except for being a neutron star, it is a black hole.
The strong gravity of the core of a dead high-mass star causes a neutron star to form. When the high-mass star becomes a supernova and leaves a core behind, the core no longer undergo fusion. Without fusion, gravity starts to push the core inward until most protons and electrons are crushed into neutrons, a neutron star forms. If the core is too massive, the neutron star would collapse and become a black hole.
No, a neutron does not have a positive nor a negative charge. Its in between, too many neutrons can cause radiation, like cobalt-60 the number at the end tells you how much neutrons are in the atom.
Long term exposure to harmful genotoxic chemicals or ionizing radiation can cause changes in the base sequence of DNA
neutron radiation
In the DNA, the sequence of nucleotides determines how proteins are built, with each segment of three nucleotides encoding a single amino acid. When one nucleotide is inserted into the sequence, the whole sequence shifts, and all the triples are changed completely, which can cause detrimental mutations.
The very definition of a black hole is a stellar body dense enough to have an escape velocity greater than that of light -- in other words, light that comes close enough to its event horizon will be trapped around it forever. If a star dies and it has enough mass to be compressed to a high-enough mass-to-radius-squared ratio to have such a high escape velocity, then a black hole will result. Otherwise, it will become a neutron star -- extremely dense, to be sure, but not dense enough to trap light, and therefore not as dense as a black hole.
There is probably a short in the wiring.