Transcript Black Holes
BLACK HOLES
By: Mikenzie Hammel
WHAT ARE BLACK HOLES?
A black hole is a cold remnant of former stars. It’s a space where gravity pulls so much
that even light can’t get out. The gravity is so strong because matter has been squeezed
into a tiny space. Because no light can get out, people can’t see black holes. They are
invisible.
In order to be pulled into a black hole, planets, light, and other materials must pass close
to it. When they reach a point of no escape, they’re are said to have entered the event
horizon. For any hope of escape from this point on, you would have to move faster than
the speed of light.
A simulated event in the Compact Muon Soleniod (CMS)
detector, also known as a physic detector, a
collision in which a micro black hole may be
created.
- Wikipedia
HOW ARE BLACK HOLES FORMED?
When giant stars come to the last phases in their lives, they generally explode in
supernovae. This explosion distributes most of the star into space, but also leaving
behind a vast “cold” piece of itself.
After the explosion occurs, the rest of the dead supernova doesn’t defy gravity so
the star collapses in upon itself. Since there is nothing to oppose gravity, a black
hole shrinks so that there is no volume whatsoever and the star’s own light
becomes trapped in an orbit.
Hubble Space telescope
image of supernova
remnant.
-NASA
LIFE SPAN OF A BLACK HOLE
Many people would think that a black hole can last forever, but that is not true. Black
holes do die out.
The length of their lives depend on the size they are. They slowly evaporate by the
release of radiation.
Did you know: Even a small black hole the same size of the sun can last more than one
billion^6 (to the 6 th power) times the age of our universe!
Astronomers think the object shown
in this Chandra X-ray Observatory
image may be an elusive
intermediate-mass black hole.
-National Geographic
WHAT ARE BLACK HOLES CAPABLE OF?
Black holes can pull in mass from a star close or next to them. This helps expand the
black hole and allows the star to shrink until it completely disappears.
If you are being pulled into a super-mass black hole, your feet and head will be
stripped from your body with a force that is hundreds of millions of times stronger
than earth’s gravity. So basically you’d be stretched into a long, thin strand and then
be shredded.
Astronomers using European Southern
Observatory (ESO) Very Large Telescope have
detected a stellar-mass black hole much
farther away than any other previously known
in a spiral galaxy called NGC 300, six million
light-years from Earth.
-The Daily Galaxy
TYPES OF BLACK HOLES
From what we know, there might be three different forms of black holes.
Stellar Black Holes: are formed when a massive star collapses.
Super-massive Black Holes: can have a mass equal to billions of suns. They most likely
exist in the center of galaxies including our own, the Milky Way. Because of the black
hole’s placement, they tend to grow fairly quickly because of the neighboring stars and
gas clouds which is the diet of the black hole.
Miniature Black Holes: have never actually been discovered yet, but would have a
mass smaller than our sun.
The super-massive black hole at the center of
our Galaxy was 100 million times more powerful
about two million years ago.
-Archaeology
HOW CAN WE SEE BLACK HOLES?
Since black holes cannot be seen, scientists use special tools to detect the strong gravity
and how it affects the stars and gas around a potential black hole. When a black hole
and a star are close in distance, high-energy light is created. Human eyes are incapable
of seeing this light so scientists use satellites and telescopes in space to capture it with
pictures.
Keck telescopes observe
the center of our galaxy
-UCLA Newsroom
Swift satellite
discovers rare X-ray
Nova and a black hole
-The Daily Journalist
WHEN AND WHO FIRST DISCOVERED BLACK
HOLES?
The first object to be named a black hole was the X-ray binary star, Cygnus X-1. Its
neighboring star was being affected to where it told more about the black hole. This
information was that its mass was too high for it to be even a neutron star.
These studies were confirmed two years after American astronomer, John Wheeler,
came up with the expression, black hole.
-John Wheeler
CAN BLACK HOLES DESTROY EARTH?
Situation: If the sun was to replace itself with a black hole its same mass.
In this situation most people would think that the earth and all the other planets in the
Milky Way would be sucked into the black hole and never return, but you have to
remember the gravitational pull you feel from an object depends on the mass of it, so if
the black hole is the same mass as the sun, we’d feel the same pull as if the sun wasn’t
replaced in the first place.
Which, in simpler terms, the earth would orbit the black hole as smoothly as it orbits the
sun now. The only downside is we’d freeze to death.
-Andrew Hamilton’s Homepage
(Computer Work)
To watch Stephen Hawking’s Black Hole Time Travel Video, click on the link below.
https://www.youtube.com/watch?v=i0cVdPHOIxw
BIBLIOGRAPHY
NASA
Wikipedia
National Geographic
Ask.com
Discovery
HubbleSite
Google Images
Daily Galaxy
Archaeology
UCLA Newsroom
Daily Journalist
Andrew Hamilton
The Guardian