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What happens in the core of a massive star just before it goes supernova?

What happens in the core of a massive star just before it goes supernova?

Just before core-collapse, the interior of a massive star looks a little like an onion, with shells of successively lighter elements burning around an iron core. Up until this stage, the enormous mass of the star has been supported against gravity by the energy released in fusing lighter elements into heavier ones.

Do supernovas explode at the speed of light?

While some observed supernovae are more complex than these two simplified theories, the astrophysical mechanics are established and accepted by the astronomical community. Supernovae can expel several solar masses of material at speeds up to several percent of the speed of light.

What is the mass of a white dwarf when it becomes a Type 1a supernova?

about 1.4 times
Secondly, there’s a well-known fact that commonly appears when people write about type 1a supernovae: That white dwarfs explode when they get to be about 1.4 times as massive as the sun – a mass known as the Chandrasekhar Limit.

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Could the Sun become a black hole?

Will the Sun become a black hole? No, it’s too small for that! The Sun would need to be about 20 times more massive to end its life as a black hole. In some 6 billion years it will end up as a white dwarf — a small, dense remnant of a star that glows from leftover heat.

What stars turn into black holes?

Most black holes form from the remnants of a large star that dies in a supernova explosion. (Smaller stars become dense neutron stars, which are not massive enough to trap light.) When the surface reaches the event horizon, time stands still, and the star can collapse no more – it is a frozen collapsing object.

Are supernovae faster than light?

But fundamentally no. Nothing can go faster than the speed of light. In a supernova things would get very very close and be very energetic, but according to Einstein you just can’t get faster than the speed of light. This is because it’s on the end of a long beam of light.

What is supernova speed?

In either case, the resulting supernova explosion expels much or all of the stellar material with velocities as much as 10\% the speed of light (or approximately 30,000 km/s). These speeds are highly supersonic, so a strong shock wave forms ahead of the ejecta.

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How often do supernovas happen?

about once every 50 years
On average, a supernova will occur about once every 50 years in a galaxy the size of the Milky Way. Put another way, a star explodes every second or so somewhere in the universe, and some of those aren’t too far from Earth.

How old is Betelgeuse?

10.01 million years
Betelgeuse/Age

Less than 10 million years old, Betelgeuse has evolved rapidly because of its large mass and is expected to end its evolution with a supernova explosion, most likely within 100,000 years.

How long would it take to get to Betelgeuse?

Betelgeuse is about 643 lightyears away from the Earth at the moment. A spacecraft traveling at 17 km/s (the speed of Voyager 1, currently the fastest spacecraft) would take about 8 million years to get to where Betelgeuse is now.

What can go faster than the speed of light in space?

Nothing can go faster than the speed of light in a vacuum. But particles in our Universe can’t even go that fast. When it comes to speed limits, the ultimate one set by the laws of physics themselves is the speed of light.

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Is the speed of light independent of the observer?

From this, it was inferred that the speed of light is constant and independent of the observer. Therefore, if a person is moving at half the speed of light in the same direction as light itself, then the light beam will appear the same as it does to a stationary individual. What Does Mass-Energy Equivalence Mean?

What happens when an object travels at the speed of light?

You see, if an object travels at the speed of light, its mass will increase exponentially! Consider this… the speed of light is 300,000 kilometers per second (186,000 miles per second) and when an object moves at this speed, its mass will become infinite. Therefore, infinite energy will be required to move the object, which is impractical.

Does going faster than light lead to backwards time travel?

So, simply going faster than light does not inherently lead to backwards time travel. Very specific conditions must be met—and, of course, the speed of light remains the maximum speed of anything with mass.