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From atoms to black holes: the scale of the universe and how we fit in

The observable universe, 45.7 billion light-years large, is only what humans have been able to discover.
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Our solar system is one of many solar systems within our galaxy, and our galaxy is only one of many galaxies within our universe.

The universe is a massive, mysterious place; our solar system, and specifically the human race, plays only a minor role in the greater span of the universe. The observable universe, 45.7 billion light-years large, is only what humans have been able to discover. But the entire universe is thought to be than that.

Much of what we do know about the observable universe has been documented by telescopes, such as the, since the universe is too vast for human exploration. Our solar system is one of many solar systems within our galaxy, and our galaxy is only one of many galaxies within our universe.

Stacker researchers investigated different structures in the universe and ranked them in order from largest (universe) to smallest (subatomic) and everything in between. These rankings include structures found in outer space, such as nebulae, galaxies, and planets, as well as such things as Mount Everest, human beings, and elements on our home planet Earth.

While researching structures or particles that are much smaller than we may have ever thought possible, such as quantum foam, performing research on the depths of space has proven to be much more challenging. Through our understanding of the world around us on Earth, we can use science to deepen our understanding of events that happen on even subatomic levels. The same cannot be said for certain parts of outer space and our universe. Scientists are always learning new things about what's "out there," and no sort of guidebook exists for what to expect.

Read on to learn about the scale of the universe.

NASA Hubble // Flickr

The observable universe

Size: 45.7 billion light-years

The has been a major topic of discussion for years. For many decades, scientists believed the universe was 13.75 billion light-years (one light-year equals about 93 million miles), determined by multiplying the speed of light (186,282 miles per second) by the time that has elapsed since the Big Bang (13.75 billion years). However, after making adjustments for when the light was produced, universe expansion, and acceleration, a group of astrophysicists in 2005 led by J. Richard Gott of Princeton University calculated the radius of the observable universe to be 45.7 billion light-years.

NASA Goddard Photo and Video // Flickr

The Hubble Ultra Deep Field

Size: 10 billion light-years

Deep field observations are long-lasting observations that reveal faint objects by gathering light. The deeper the observation, meaning the longer the exposure time, the fainter the objects that are coming to light. The 2004 Hubble Ultra Deep Field shows the ever to be achieved by humankind.

europeanspaceagency // Flickr

Sloan Great Wall

Size: 1.3 billion light-years

The is a group of galaxies located in the Sloan Digital Sky and is considered the largest known structure. Several large superclusters of galaxies can be seen in this structure, such as the Shapley Supercluster (part of the Pisces-Cetus Supercluster).

NASA Goddard Photo and Video// Flickr

Eridanus Supervoid: Possible parallel universe?

Size: 500 million light-years

The Eridanus Supervoid is a in the universe. Although CMB cold spots are somewhat common in space, the Eridanus Supervoid cold spot is so large and so cold that it cannot be explained by the same measures as the other cold spots. Some researchers argue that it is actually a supervoid into a parallel universe.

NASA/JPL-Caltech/SSC // Wikimedia Commons

Virgo Supercluster

Size: 110 million light-years

The Virgo Supercluster is home to, the largest being the Virgo Cluster. This cluster is located within the Pisces-Cetus Supercluster Complex. What we know as the Milky Way galaxy is on the outskirts of the Virgo Supercluster.

NASA // Wikimedia Commons

Andromeda Galaxy

Size: 150,000 light-years

The Andromeda Galaxy is considered the Milky Way's twin, as they are relatively the same size and similar in shape. It is predicted that these in a few billion years to form an elliptical galaxy, Milkomeda.

Pixabay

Milky Way Galaxy

Size: 120,000 light-years

The Milky Way Galaxy is where we live. It is a and looks like a milky band of light in the sky when seen in a dark area. There are an estimated 100 billion stars in this galaxy. However, scientists' estimations are based on what they can see from within the galaxy, which has made research somewhat difficult.

Hubble Heritage // Flickr

Sagittarius Dwarf Galaxy

Size: 10,000 light-years

The Sagittarius Dwarf Galaxy is one of the Milky Way's satellite galaxies, as it is only 70,000 light-years away. It is also the and is one of many galaxies in the area, as well as two magellanic clouds (irregular dwarf galaxies). This galaxy was discovered in 1994 and astronomers currently believe it is being slowly pulled apart by gravity.

NASA // Wikimedia Commons

Tarantula Nebula

Size: 600–1,000 light-years

The Tarantula Nebula is the. It is extremely violent, with intense radiation, winds, and supernova shocks coming from the center of this massive star. It is also one of the brightest non-stellar objects known in this universe.

European Â鶹´«Ã½AVern Observatory (ESO) // Wikimedia Commons

Omega Centauri

Size: 150 light-years

The Omega Centauri is the brightest globular cluster in our galaxy and contains over 10 million stars. Scientists believe this cluster may be the that collided and merged with the Milky Way.

European Â鶹´«Ã½AVern Observatory (ESO) // Wikimedia Commons

Lagoon Nebula

Size: 110 light-years

The Lagoon Nebula was discovered in 1747 and contains many Bok globules, which are dark collapsing clouds of protostellar material, and many volatile stars. The giant star in the center of the nebula is called and it blasts out ultraviolet radiation, tornadoes, and hurricane-like stellar winds.

NASA // Wikimedia Commons

Orion Nebula

Size: 24 light-years

This nebula is one of the most visible from Earth, and is its. It lies in the Orion constellation, hence its name. The Orion Nebula is an enormous cloud of dust and gas and many new stars are being formed within it.

NASA // Wikimedia Commons

The Pillars of Creation

Size: 4-8 light-years

The Pillars of Creation reside within the center of the Eagle Nebula and are made of cosmic dust and gas. They are part of an within the Eagle Nebula and contain many newborn stars within their pillars.

NASA Goddard Photo and Video // Flickr

Oort Cloud

Size: 2 light-years

The Oort Cloud can be found in the outermost region of our solar system at the edge of the Kuiper Belt. It is believed that the Oort Cloud is a the sun, our planets, and the Kuiper Belt. The icy bodies within the cloud are extremely large, bigger in some cases than Earth's mountains.

Hubble Heritage // Flickr

Gomez's Hamburger

Size: 2.5 trillion kilometers

is a sun-like star that is emitting large amounts of dust and gas as it nears the end of its life. It will soon become a planetary nebula once the star officially dies, and is 2.5 trillion kilometers large. The hamburger “buns” are light reflected off dust, and the “patty” is the dark strip of dust in the middle.

NASA Goddard Photo and Video // Flickr

Kuiper Belt

Size: 1.5 billion kilometers

The Kuiper Belt is an area of leftovers from our solar system's early history. It is a doughnut-shaped ring that contains icy comets and other icy objects. Although in the universe the Kuiper Belt is not a major structure, it is considered one of the.

NASA Goddard Photo and Video // Flickr

The sun

Size: 1.4 million kilometers

Although our sun appears to be very large in the context of our solar system, it is actually only an. This star emits large amounts of heat and light, as well as solar winds, which are low-density streams of charged particles. These solar winds, as well as solar flares, are responsible for many occurrences on Earth, such as the aurora borealis.

NASA Goddard Photo and Video // Flickr

Jupiter

Size: 140,000 kilometers

and is as all the other planets combined. It is a gas giant and has over 75 moons. The iconic Giant Red Spot is a massive storm that is roughly double the size of Earth and has been active for over a century.

NASA Goddard Photo and Video // Flickr

Earth

Size: 40,075 kilometers

Earth is relatively small compared with other planets and structures found in our solar system and the universe. It only has one moon, which is. It is believed that our planet formed 4.6 billion years ago from a solar nebula explosion resulting in clumps of matter that collided and merged together.

Severin.stalder // Wikimedia Commons

Great Wall of China

Size: 21,196 kilometers

The Great Wall of China, located in Northern China, is the at more than 13,000 miles, and has a 2,300-plus-year history built by different states or dynasties. It was originally intended to be three times the height of a man, though it is not clear if that feat was ever completely accomplished, and parts of it have eroded over time. It was built to stymie invaders and to protect Silk Road trade.

TommoT // Shutterstock

Grand Canyon

Size: 450 kilometers long

The Grand Canyon is a massive national park in Arizona. Not only is it vast in size, containing, but the Colorado River, which carved the canyon, courses across the canyon bottom. Width and depth of the canyon vary, depending on the location.

Edward Emerson Barnard // Wikimedia Commons

Halley's Comet

Size: 11 kilometers

Halley's Comet was in 1705 after he surveyed the orbits of 24 comets and realized that comets that appeared in 1531, 1607, and 1682 had similar orbits. He determined it was actually one comet that had an orbital period of approximately 76 years. The discovery was also notable because it proved that there are other celestial objects in our solar system that are centered around the Sun.

Christopher Burns // Unsplash

Mount Everest

Size: 8.8 kilometers

Mount Everest in southern Asia is part of the Great Himalayas, and is the. Over 4,000 people have climbed it, though almost 300 have died in their attempts to conquer the mountain.

Photo Spirit // Shutterstock

Central Park

Size: 4 kilometers

Central Park is the largest public park in New York City; construction began in 1858 after many years of planning and project proposals. It officially opened in 1876 and is considered to this day.

Romrodphoto // Shutterstock

Burj Khalifa

Size: 828 meters

The Burj Khalifa, located in Dubai, UAE, is the tallest building, the tallest structure, and the. At more than 160 stories, the Burj Khalifa has the most stories in the world, as well as the elevator with the farthest travel distance in the world.

F.G.O. Stuart // Wikimedia Commons

Titanic

Size: 270 meters

The in the early 1900s and was one of the biggest ships for its time. It could hold over 3,500 people and could reach 24 knots (27.6 mph) at full speed. However, it had only been at sea for five days during its maiden voyage when it hit an iceberg and sank in the ocean, on board.

FunkMonk & Fæ // Wikimedia Commons

Tyrannosaurus Rex

Size: 7 meters tall

The Tyrannosaurus Rex was one of the largest meat-eating dinosaurs to ever live. Roughly 12 meters long, seven meters tall and with a 1.5 meters-long skull, this. It became extinct as part of the Cretaceous-Tertiary mass extinction 65 million years ago.

Jehyun Sung // Unsplash

Human

Size: 1.7 meters

Human beings play a large role on Earth, but as far as we know, this is the only planet in our solar system that supports living beings. Compared with other mammals that have lived on the planet,.

Kowit Phothisan // Unsplash

Russell's Teapot

Size: 25 centimeters

In 1952, British Nobel laureate Bertrand Russell suggested that there was a teapot revolving around the sun in an elliptical orbit. The teapot, however, was too small to be seen with a telescope, therefore no one could prove or disprove whether this teapot was actually there. This was used in discussions concerning the existence of God.

Enrico Mantegazza // Unsplash

Ant

Size: 4 millimeters

These tiny insects make up a decent proportion of the land animal/insect population, as there are billions, if not trillions, of ants on the planet. Ants live in, run by the queen ant and operated by female worker ants with the main goal of protecting the colony and continuously reproducing.

Ed Uthman // Wikimedia Commons

Human egg

Size: 120 micrometers

An ovum, or a human egg, is the. Because of its size, a human egg can be seen with the naked eye, without the aid of a microscope.

Mulletsrokk // Wikimedia Commons

Skin cells

Size: 35 micrometers

Skin cells, also known as keratinocytes, develop from the bottom, or basal layer, and until they reach the outermost surface where they shed. By the time they reach the outermost surface, these cells are dead and are at their strongest protection.

Pixabay

Mist droplet

Size: 20 micrometers

Mist droplets can somewhat reduce visibility, as well as so rays of light shine through them. Rainbows are formed when there are mist droplets in the air after a rainstorm and the sun shines through them.

Pixabay

Width of silk fiber

Size: 15 micrometers

in many parts of the world and is used in clothing and other fabrics and textiles. It is produced by silkworm larvae, and certain types of silkworms, such as the mulberry silkworm, are more valuable than others.

Pixabay

White blood cells

Size: 10 micrometers

White blood cells, although only making up about 1% of our blood, are. These cells flow through the bloodstream and fight off viruses, bacteria, and foreign bodies that can threaten our health.

Pixabay

Red blood cell

Size: 7 micrometers

, circulating throughout the body once every 20 seconds. They are small and circular, with a dent in the middle to allow for more surface area and easier transportation of life-giving oxygen.

CI Photos // Shutterstock

The powerhouse of the cell: mitochondria

Size: 4 micrometers

Mitochondria are known as the, as they fuel our metabolism by turning oxygen and nutrients into energy. Mitochondria are essential to survival, and there are trillions of mitochondria in our bodies.

CHIARI VFX // Shutterstock

X chromosome

Size: 4 micrometers

The X chromosome is the. Females have two X chromosomes, while males have one X chromosome and one Y chromosome. It was first discovered in 1890 by Hermann Henking in Leipzig, Germany.

Pixabay

Red light wavelength

Size: 680–750 nanometers

Red light wavelength is the and has the longest wavelength of all the colors. The wavelength indicates that the energy of the light, or its photons, is very low.

Chantal Abergel // Wikimedia Commons

Largest virus: megavirus

Size: 440 nanometers

The megavirus was discovered in 2010 by a group of scientists involved in the research of the mimivirus, which was the largest virus until the megavirus was found. Although the megavirus is slightly smaller in size than the mimivirus, its DNA genome—complete set of DNA—is much larger, containing.

Pixabay

Smallest thing visible with an optical microscope

Size: 200 nanometers

This is the smallest size an can see. This microscope is commonly found in high school or college labs.

Roingeard // Wikimedia Commons

HIV

Size: 90 nanometers

HIV is a virus that attacks the body's immune system and causes AIDS. Less than has HIV. Although this virus is extremely small, it is extremely powerful and often fatal. There is currently no cure for AIDS.

Pixabay

DNA

Size: 3 nanometers (width)

Deoxyribonucleic acid (DNA) stores genetic information in humans, as well as almost every other living thing on Earth. DNA strands contain about 25,000 genes and a single human cell contains roughly three meters of DNA., even though on the outside we may look different.

Pyre42 // Wikimedia Commons

Glucose molecule

Size: 800 picometer

that humans use for energy. Plants produce glucose through photosynthesis and turn it into complex sugars. When humans eat plants or animals that have eaten plants, we break down these complex sugars into glucose.

WillowW // Wikimedia Commons

Alpha helix

Size: 500 picometer

The alpha helix is one of the secondary structures of proteins and many proteins contain alpha helices. Two proteins, hemoglobin and myoglobin, are made up of about 70% alpha helices.

bobyramone// Shutterstock

Water molecule

Size: 280 picometer

Water is composed of two hydrogen elements bonded to one oxygen element. It is the (solid, liquid, gas) on Earth. As a universal solvent, it dissolves more substances than any other liquid. The physical water molecule.

Emmily // Shutterstock

Most abundant element in the universe: hydrogen

Size: 31 picometers

Hydrogen consists of one proton and one election and is the in the universe, making up about 75% of the mass of the universe. It is the simplest and lightest element found on the periodic table.

European Â鶹´«Ã½AVern Observatory // Flickr

Gamma ray wavelength

Size: 1 picometer

Gamma rays have an extremely high frequency and can come from radioactive decay or other nuclear reactions. They are the on the electromagnetic spectrum. Gamma rays can be produced from processes that occur in black holes and pulsars.

Ezume Images // Shutterstock

Proton size

Size: 0.000000000000001 m

The size of a proton has long been debated by scientists. Disputes over how to accurately measure protons prevented an agreed-upon calculation. However, in 2010 a new kind of experiment was performed by the Paul Scherrer Institute in Villigen, Switzerland, using a that allowed scientists to more accurately estimate the proton's radius.

Alex Sukontsev // Flickr

Quantum foam

Size: 0.0000000001 yoctometers

The falls under quantum mechanics, a branch of physics that examines how light and matter operate at atomic scales. Quantum gravity models claim that space-time is composed of tiny foaming regions that blink in and out of existence, similar to bubbles in a can of soda. Since there is no such thing as empty space, these “bubbles” coming in and out of existence are known as quantum foam.

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