The Sizes and Distances of Objects in Space PDF

Summary

This document discusses the sizes and distances of objects in space, focusing on the universe, galaxies, and nebulae. It explores various topics like the size of the observable universe, galaxy basics, and the structure of our Milky Way galaxy. The document examines nebulae, often regions where new stars form, and the solar system, including its theoretical boundary.

Full Transcript

The Sizes and Distances of Objects in Space
The Universe
1 The most distant objects in the Universe are 47 billion light years away, making the size of the
observable Universe 94 billion light years across. How can the observable universe be larger
than the time it takes light to travel over the age of the Universe? This is because the universe
has been expanding during this time. This causes very distant objects to be further away from
us than their light travel time.
2 The Hubble Key Project, conducted by the Hubble Space Telescope from 1991 to 2000
verified the age of the Universe. Results from the WMAP satellite further confirmed and refined
the age of the Universe to be 13.7 billion years.

Galaxy Basics
1 Galaxies consist of stars, planets, and vast clouds of gas and dust, all bound together by gravity.
The largest contain trillions of stars and can be more than a million light-years across. The
smallest can contain a few thousand stars and span just a few hundred light-years. Most large
galaxies have supermassive black holes at their centers, some with billions of times the Sun’s
mass.
2 Galaxies come in a variety of shapes, mostly spirals and ellipticals, as well as those with less
orderly appearances, usually dubbed irregular.
3 Most galaxies are between 10 billion and 13.6 billion years old. Some are almost as old as the
universe itself, which formed around 13.8 billion years ago. Astronomers think the youngest
known galaxy formed approximately 500 million years ago.
4 Galaxies can organize into groups of about 100 or fewer members held together by their mutual
gravity. Larger structures, called clusters, may contain thousands of galaxies. Groups and
clusters can be arranged in superclusters, which are not gravitationally bound. Superclusters,
empty voids, “walls” of galaxies, and other large-scale structures make up the cosmic web of
matter in the universe.

Our Milky Way
Structure and Composition
1 The galaxy we live in, called the Milky Way Galaxy, is a barred
spiral galaxy composed of at least 100 billion stars. It is approximately
100,000 light years across and about 1000 light years thick. It has a
central bulge that is about 10,000 light years in diameter.

2 Our solar system is about a third of the way towards the edge
of the Galaxy from the central bulge. If the Solar System were inside
the bulge, at night we would be able to see a million stars as bright as
Sirius (the brightest star in our night sky). The night sky would be so
This illustration shows the Milky Way,
bright, that it would not seem much different than day. The Sun and
our home galaxy. NASA/JPL-Caltech Solar System are within the 1,000 light year thick disk, and we are
only about 95 light years from the central plane.
 Nebula
1 Nebulae are interstellar clouds of gas and dust. Many nebulae are
formed from the remnants of dying stars. Nebulae are often also regions
where new stars are born.
2 Nowadays, the term ‘nebula’ refers to an interstellar cloud of dust
and gas. Nebulae are often formed from the remnants of dying stars: from
planetary nebulae or the dispersed debris from supernova explosions. They
are also often regions of intense star formation, as the rich reservoirs of dust and gas provide the
necessary raw material from which new stars are born. Nebulae are often mind-bogglingly big, spanning
several light years in size.

Solar System
1 While some astronomers are content to
claim that the size of the solar system is
around 122 AU, others point out that the
solar system should really be defined by the
reach of its gravity. In other words, if an
object can be said to orbit the Sun, then it
should be considered part of the solar
system.
2 Using this expanded definition,
astronomers point to the theoretical Oort
Cloud as the approximate boundary of
the solar system. A cloud of icy objects
that could be the source of comets that
The layout of the solar system, including the Oort Cloud, on a enter the inner solar system from time to
logarithmic scale. Credit: NASA time, the Oort Cloud sits more than
100,000 AU away from the Sun.
3 Using the Oort Cloud as an approximate boundary would mean that the size of our solar system
approaches nearly 2 light years! That's equivalent to almost 12 trillion miles. Try to wrap your
mind around that. And once you have wrapped your mind around that, remember that's just
the size of our tiny solar system, which is just a speck in terms of the whole universe!
 Sources

Galaxy Basics
https://science.nasa.gov/universe/galaxies/

The Milky Way Galaxy
https://lco.global/spacebook/galaxies/the-milky-way-galaxy/

Nebula
https://esahubble.org/wordbank/nebula/#:~:text=Nebulae%20are%20often%20mind%2Dbogglingly,we
%20now%20know%20as%20galaxies.

How Big Is the Solar System?
https://wonderopolis.org/wonder/how-big-is-the-solar-system

How Big is The Solar System?
https://www.universetoday.com/104486/how-big-is-our-solar-system/#google_vignette