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Aerospace Dimensions Module 5 Space Environment Contents • • • • Chapter 1 – Space Chapter 2 – The Solar System Quiz Credits Chapter 1 Space What is space? Space is the region beyond the immediate influence of Earth and it’s atmosphere, and is defined by the Air Force and by NASA as starting at an altitude of 50 miles. Anyone who reaches this height is awarded astronaut’s wings. Contents Characteristics of Space One of the major characteristics of space is that there’s no atmosphere, and therein, no oxygen. Because space is also a near vacuum, there is very little molecular movement, meaning the temperature is very, very low. The temperature in space is defined as absolute zero, or the temperature at which there is zero molecular movement. The temperature is -273°C. Contents Characteristics of Space Many people also think of space as having 0 gravity. No matter where you go in the universe, there is always gravity pulling on you, which is why we call the gravity in space, microgravity, as it is much smaller than when on the surface of a celestial body. Contents Characteristics of Space There are three general terms used when describing distances in space: cislunar, interplanetary, and interstellar. When talking about distances it’s also important to remember that space is VERY big, about 156 billion light-years to be more precise, or, in other words, 936,000,000,000,000,000,000,000 (936 sextillion) miles across Contents Characteristics of Space Cislunar space is defined as the region of space in between the Earth and the Moon, a distance of about 237,087 miles. Within cislunar space is most of Earth’s magnetosphere. As far as space goes, cislunar space is pretty crowded, containing man-made satellites, meteoroids and even astronauts. Contents Characteristics of Space Interplanetary space is the next step out from cislunar space, and is the space between our Sun, and the orbit of the most distant planet, which is Neptune. Neptune’s orbit is approx. 2,799,300,000 miles from the Sun, making interplanetary space a significantly large region than cislunar space. This region contains all 8 planets, their moons, the asteroid belt, comets, as well as charged particles and magnetic fields. Contents Characteristics of Space Interstellar space is much, much larger than interplanetary space. Interstellar space is the region in between different stars. The nearest star to our Sun is 4.56 light years away, meaning it’s 27,360,000,000,000 (27 trillion, 360 billion) miles away. Contents Celestial Bodies There are a HUGE number of different types of celestial bodies in our universe. If you can think it up, and it’s physically possible, then somewhere in the universe, it’s almost definitely happened. Contents Celestial Bodies One celestial body most people are familiar with is a galaxy. Galaxies are massive collections of stars and gas and are arranged in a few different forms: elliptical, spiral, and irregular. Elliptical galaxies are oval in shape, spiral galaxies have spiraling arms moving out from a bright center, and irregular galaxies have no particular shape. Contents Celestial Bodies Another type of celestial body is a nebula. Nebulae are much smaller than galaxies, in fact, many nebulae are within galaxies. A nebula is a large cloud of gas and dust. Nebulae are very interesting as they are where stars are born at – using the dust and gas they are made up of. Many nebulae are the remnants of a dying star. Contents Celestial Bodies Stars are also major celestial bodies in our universe, forming the hubs around which solar systems develop. Stars are bodies of very hot gasses such as hydrogen and helium. Stars are also gigantic tug-of-war games between gravity and the pressure pushing outward from within the star from the hot gasses. Contents Celestial Bodies Another formation we use is a constellation of stars. Constellations are groupings of stars as we see them from Earth. Currently, there are 88 constellations we use today. Many are named after mythology. Many people know constellations such as Orion or Ursa Major (which contains the Big Dipper). Contents Space Around Earth Space around Earth is very active because the atmosphere may end at approx. 50 miles, but the magnetosphere extends much farther – starting at about 215 miles above Earth. Things such as the aurora borealis and the Van Allen radiation belts are examples of what interaction with the magnetosphere causes. Contents Space Around Earth Most people know the aurora borealis as the ‘Northern Lights.’ The lights are caused by the interaction of solar particles with our magnetosphere and can occur from anywhere between 60 to 600 miles above the surface of the Earth. Contents Space Around Earth The area surrounding Earth is not solely for show however, the Ionosphere is a critical part of our atmosphere. The Ionosphere contains a large number of ions that protect us from solar radiation and cosmic rays from around the universe. The ionosphere also reflects radio waves back down to Earth – allowing AM radios to travel very long distances. Contents Space Around Earth Yet another key part of the area surrounding Earth is our magnetosphere. Our magnetosphere doesn’t begin until about 215 miles above the surface, but it extends are very long distance – even further than the Moon. The magnetosphere combats a large portion of solar radiation, especially from the solar wind and solar flares. Contents Space Around Earth The area around Earth can even be harmful to astronauts. The Van Allen radiation belts can cause severe harm to astronauts if they stay in them too long – fortunately, the shuttle orbits beneath them. The belts are caused by charged particles from the Sun becoming trapped inside the magnetosphere and bounce around. Contents Chapter 2 The Solar System The Sun The Sun is most important body in our solar system. It provides all of our energy here on Earth as well as being the center of our solar system. The Sun is approx. 93 million miles from Earth and has a diameter 100x bigger than Earth’s. It is about 90% hydrogen, 9% helium, as well as other minor elements. The surface is also characteristically violent and dynamic. Contents The Sun The surface of the Sun, also known as the photosphere, is so hot (about 10,000 degrees), that it’s in a plasmatic state. Because of this fluidity and the amount of energy involved, many solar disturbances can occur such as sunspots, solar flares, or solar prominences. Sunspots are the darker, cooler areas on the Sun’s surface. Contents It’s from these spots that the prominences and flares occur. Solar prominences are large, long-lasting energy discharges that can reach out for thousands of miles and last for months. Flares are shorter lived, but are more dangerous to us as they spring up quicker and give us less notice. The Moon Earth’s single moon orbits in an elliptical trajectory around the Earth every 27 days. The orbit goes from about 252,000 miles away to 221,000 miles away. At 2,155 miles, the Moon’s diameter is only about a fourth of Earth’s diameter. Contents The Moon The Moon’s surface is very dry and barren, with no atmosphere and no liquid water. The surface is primarily rock covered with a fine layer of dust. There are many different types of rock on the Moon, but the two most common are Moon basalt and anorthosite. The Moon’s basalt is very similar to Earth’s, but contains different minerals. The basaltic rocks make up the dark portions of the surface. Anorthosite however, is relatively rare on Earth, being only found in Greenland. Anorthosite is what the highlands (the light areas) of the Moon are covered with. Contents Mercury Mercury is the closest planet to the Sun, being only about 36 million miles away from it. Because of this close proximity, Mercury’s year is only 88 Earth days. Mercury also rotates very slowly on it’s axis, making it’s day very long – Mercury’s days are approximately 59 Earth days, meaning there’s less than 2 Mercurian days per year. Contents Another result of it’s very close proximity to the Sun is it’s extreme temperatures. On the day side of Mercury, temperatures reach a scorching 800 degrees, while the night side drops down to -300 degrees. Mercury’s surface is also very resembles that of the Moon – it’s very rocky, and heavily cratered as there is no atmosphere on Mercury. Venus Venus is the planet closest to Earth and is approximately the same size as Earth. Venus is 67 million miles from the Sun and takes 225 Earth days to orbit it. The similarities with Earth end here though. Venus is an extremely hot planet, due to it’s extreme greenhouse gas effect – temperatures all around the planet are about 850 degrees. Contents Venus’ surface cannot be seen from Earth as it is enveloped in a thick layer of clouds that rotates around the planet 4 times faster than the planet rotates – a Venusian day lasts about 243 Earth days, making it’s year shorter than it’s days. Venus’ atmosphere is comprised of 96% carbon dioxide, and 4% nitrogen, as well as small amounts of other materials. Venus It is believed that extreme volcanic activity in the past has caused these thick sulfuric clouds that cover the planet, these clouds, along with the large amount of carbon dioxide in the atmosphere, do not allow heat to escape the planet, raising the temperature to very high levels. Contents Venus is relatively smooth, although it does have some highlands and craters. It is also very easy to see Venus right before the Sun sets at night and before it rises in the morning as it’s very bright – much brighter than any star or planet in the sky. Venus Venusian Cloud Tops Venusian Surface Earth Earth, is the only known planet that harbors life. Our atmosphere is 78% nitrogen, 21% oxygen, and has small amounts of argon, carbon dioxide, and other gasses. The atmosphere is very key to having life on Earth as it gives us the oxygen we breathe, as well as protecting us from solar radiation. Contents Our surface is 67% completely covered in water, with the Pacific Ocean accounting for 50% of that. There is a very wide array of terrain features as well as forms of life on our planet. Our years last 365 days and our days last 24 hours. Mars Mars is the next planet from the Sun after Earth. It’s red in color due to the dust covering the surface which is primarily composed of rust. Mars has a largely barren landscape with a very thin atmosphere composed mostly of carbon dioxide. Mars also has only about have the gravity of Earth, so massive dust storms can begin, covering much of the surface of Mars at once. Contents Mars is renowned for it’s massive volcanoes – being the planet that has the biggest volcano (Olympus Mons). Olympus Mons is 400 miles across, and is 17 miles tall (over 3 times taller than Mt. Everest). Daytime temperatures can reach as high as 65 degrees, while nighttime temperatures drop down to as low as -130 degrees. Mars Martian days are only 37 minutes longer than Earth days, however, Martian years are nearly twice as long at 687 Earth days. Many probes have been sent to Mars, such as Viking I and II, Pathfinder, Sojourner, Mariner, and several others. Many people believe that Mars may have had life at one point – and scientific evidence does point to that. Contents However, conditions on Mars now are not suitable for life, as it has less than 1% of the pressure and water on Earth. Jupiter Jupiter is our solar system’s largest planet – having 3 times the mass of all the other planets put together. Jupiter is about 11x larger than Earth. Jupiter’s days last only about 10 hours, and this very fast rotation causes extreme weather patterns. Jupiter is also the first of the gas giants from the Sun. Hydrogen is the most prominent gas, making up 90% of Jupiter. Contents Helium, methane, and ammonia are also present. Jupiter’s cloud tops are extremely dynamic and have very high winds and some of the biggest storms in the solar system. The biggest storm right now is the Great Red Spot – which is about 30,000 miles long and 10,000 miles wide, making it about the size of our planet. Jupiter Jupiter also has many, many moons. Currently, there are 16 known moons, 4 of which are easily visible with only a pair of high powered binoculars. These four moons are known as the Galilean Moons as Galileo was the first to see them using his very crude telescope. These moons are very unique – one even has large numbers of active volcanoes (Io). Contents Jupiter’s temperatures have huge differences, with it being about 60,000 degrees in it’s core, to -220 degrees on it’s cloud tops. Several probes have been launched past Jupiter, such as Pioneer and Voyager. Saturn Most of us are familiar with Saturn’s extensive ring system. Saturn is the only planet with such clearly defined rings in our solar system. The rings are made from tiny particles to particles are large as boulders. The entire system extends about 250,000 miles from the surface of the planet. There are a total of seven ring layers, the first five discovered by Galileo and the last two discovered by the Pioneer spacecraft. Contents Saturn itself is another gas giant comprised mostly of hydrogen and helium, although not nearly as large as Jupiter. Saturn’s days also last about 10 hours but it’s years are 29 Earth years long. Like Jupiter, Saturn’s very fast rotation also causes very extreme weather conditions on Saturn’s cloud tops, with winds known to reach 1,100 miles per hour. Saturn The temperatures on Saturn are not quite as extreme however, with temperatures going up to 130 degrees during the day to as low as -330 degrees during the night. Night time temperatures approach absolute zero during the night, as Saturn is nearly 900 million miles from the Sun. Contents Saturn also has an extensive array of moons, with 18 known moons. One moon, Titan, is very unique as it has it’s own atmosphere – something no other moon in our solar system has. Saturn Titan Uranus Uranus is the third largest planet in our solar system and is another gas giant, like Jupiter and Saturn. It’s outer layers consist primarily of hydrogen and helium, as well as some methane, which gives it it’s blue-green color. Uranus is approximately 1.6 billion miles from the Sun – about twice as far as Saturn. Contents Uranus takes about 84 Earth years to orbit the Sun, and rotates in 18 hours. However, Uranus’ axis is tilted to 60 degrees, meaning it’s essentially tipped over on it’s side. Because of this, daylight is determined by where it is on it’s orbit around the Sun – meaning there is about 42 years of daylight, and 42 years of night. Uranus Uranus has rings, like Saturn, however, they are very thin and are very dark, so are hard to see. Uranus also has about 15 moons. Because it is very far from the Sun, Uranus is very cold, with temperatures dropping down to about -340 degrees, nearly absolute zero. Contents Neptune Neptune is the last gas giant in our solar system, and is the fourth largest planet. Neptune wasn’t discovered until 1846 using mathematics that showed Uranus’ orbit was being influenced by another planet. Neptune and Uranus are both very similar to each other. Neptune however, orbits 3 billion miles from the Sun – a little over twice as far as Uranus. Contents Each of Neptune’s years lasts 165 Earth years. Neptune’s days however, are only about 19 hours. Like Uranus, Neptune’s cloud tops are made primarily of hydrogen and helium, with a little methane that gives Neptune it’s blue color. Neptune also has bright white clouds of methane ice crystal. Neptune Neptune also has a VERY faint ring system. Like the other gas giants, Neptune’s weather is very dynamic. In fact, Neptune is the windiest planet in the solar system – with wind speeds recorded at over 1,500 mph. Neptune also has several large ‘dark spots’ – similar to Jupiter’s Great Red Spot. Contents Neptune also has the Great Dark Spot, which is a storm similar to the Great Red Spot and is also about the size of Earth. Neptune has 8 moons and on it’s largest moon, Triton, temperatures of 391 degrees have been recorded – very close to absolute zero. Neptune Triton is about ¾ the size of Earth’s moon and orbits Neptune in 5.875 Earth days. Voyager 2 also showed active geysers on Triton spewing nitrogen gas and dark dust particles several kilometers into space. Contents Pluto *Disclaimer* Pluto was recently classified in recent years as a dwarf planet by the International Astronomic Union. For the purposes of your tests however, it is still a planet as the tests were designed before it was designated a dwarf planet. Contents Pluto Pluto was discovered in 1930, and there is still very little known about it. It’s yellowish in color and it’s days last about 6.5 Earth days. Pluto is also the smallest of our planets, and the farthest from the Sun at 4 billion miles away. Pluto is dark, and frozen. It has a rocky core with a water and ice mantle and a surface of methane frost. Contents Pluto also has one moon, Charon, that is half the size of Pluto. Charon’s rotational period is the same as Pluto’s so they travel in a synchronous orbit, although spinning in opposite directions. Pluto’s odd orbit around the Sun also sometimes puts it closer to the Sun than Neptune. Pluto This is what Pluto and Charon are thought to look like – even the best pictures of them show no details as they are so far away, so small, and receive such little light. Contents Asteroids Asteroids are chunks of rock that can vary in size greatly – from tiny dust particles to a few that are a few hundred miles across. Most of our solar system’s asteroids are located in the asteroid belt – in between Mars and Jupiter. Asteroids were first discovered in 1801 by an Italian astronomer and since then, over 15,000 have been cataloged. Contents We know there are probably millions more, however. Scientists know of about 200 asteroids that are capable of hitting us, but the closest any of them come is 100,000 miles of us. Asteroids come in all shapes and sizes, and are composed of any number of materials. Comets Comets are commonly described as ‘dirty snowballs.’ They are irregular in shape and have a tiny nucleus made of frozen gasses, water, dust, and ice. Comets are generally a few miles across and usually travel around the outer regions of our solar system. Sometimes they are bumped out of their orbits by passing stars and sent towards the Sun however. Contents As they get closer to the Sun, they form a tail of vaporizing gasses and ice, forming the comets we see here on Earth. These tails can extend for millions of miles. Comets sometimes don’t completely burn up as they travel towards the Sun, many make several orbits, such as Halley’s comet, which appears every 76 years. Halley’s Comet Meteorites Meteorites are relatively uncommon due to our thick atmosphere. However, when ever a meteor (objects entering our atmosphere) hit the surface, they are called meteorites. We see meteors here on Earth as ‘shooting stars.’ Most meteorites are quite small, only about the size of a basketball usually. Contents This is due to the atmosphere burning off most of the material. Meteorites come from all around the solar system, some are proven to be from Mars, some are from the Moon – the potential origins can be anywhere. Quiz Question 1 Enormous collections of stars arranged in a particular shape are called? A) B) C) D) Contents Nebulae Supernovae Constellations Galaxies Correct! Enormous collections of stars, dust, and gas arranged in a particular shape are called galaxies. Next Question Incorrect Enormous collections of stars, dust, and gas arranged in a particular shape are called galaxies. Next Question Question 2 Groupings of stars as we see them from Earth, usually named after mythology, are called what? A) B) C) D) Contents Binary Clusters Constellations Globular Clusters Asteroids Correct! Groupings of stars as we see them from Earth, which are usually named after mythology, are known as constellations. Next Question Incorrect Groupings of stars as we see them from Earth, which are usually named after mythology, are known as constellations. Next Question Question 3 Stars are bodies of extremely hot gasses. What are the gasses stars are mostly comprised of? A) B) C) D) Contents Iron and Nitrogen Hydrogen and Helium Oxygen and Carbon Hydrogen and Neon Correct! Stars are typically comprised of mostly hydrogen and helium. Next Question Incorrect Stars are typically comprised of mostly hydrogen and helium. Next Question Question 4 What kind of gravity is in space? A) B) C) D) Contents Newtonian gravity Universal gravity Astrogravity Microgravity Correct! The amount of gravity in space is not zero, rather, it is known as microgravity. Next Question Incorrect The amount of gravity in space is not zero, rather, it is known as microgravity. Next Question Question 5 When referring to something in cislunar space, where is that object at? A) Between Earth and Mars B) Between Earth and the Moon C) Between the Sun and Pluto D) Between the Sun and Alpha Centauri Contents Correct! Something in cislunar space is somewhere in between the Moon and Earth. Next Question Incorrect Something in cislunar space is somewhere in between the Moon and Earth. Next Question Question 6 What is a solar system? A) A small, icy body orbiting the Sun B) The Sun and the bodies that orbit it C) Solar weather patterns D) Darker, cooler areas on the Sun Contents Correct! A solar system is a sun and the bodies that orbit around it. Next Question Incorrect A solar system is a sun and the bodies that orbit around it. Next Question Question 7 What is a meteor called once it hits the surface? A) B) C) D) Contents Meteoroid Meteoroidic Object Meteorite Asteroid Correct! Meteors that hit Earth’s surface are then called meteorites. Next Question Incorrect Meteors that hit Earth’s surface are then called meteorites. Next Question Question 8 Which planet is the last gas giant from the Sun? A) B) C) D) Contents Mars Jupiter Mercury Neptune Correct! The last gas giant from the Sun is Neptune Next Question Incorrect The last gas giant from the Sun is Neptune Next Question Question 9 Which planet is the largest planet in our solar system? A) B) C) D) Contents Jupiter Earth Saturn Venus Correct! The largest planet in our solar system is Jupiter. Next Question Incorrect The largest planet in our solar system is Jupiter. Next Question Question 10 Why is Venus so hot? A) B) C) D) Contents Volcanoes Greenhouse Gasses Heat is trapped All of the above Correct! Venus is so hot because volcanism in it’s past released large amounts of greenhouse gasses, making heat become trapped in it’s atmosphere. Contents Credits Incorrect Venus is so hot because volcanism in it’s past released large amounts of greenhouse gasses, making heat become trapped in it’s atmosphere. Contents Credits Credits • Created by Cadet Ryan Stanley • Based on Aerospace Dimensions Module 5: Space Environment Contents