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Chapter 23 Space Transportation Systems. Objectives After reading the chapter and reviewing the materials presented the students will be able to: Understand.

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Presentation on theme: "Chapter 23 Space Transportation Systems. Objectives After reading the chapter and reviewing the materials presented the students will be able to: Understand."— Presentation transcript:

1 Chapter 23 Space Transportation Systems

2 Objectives After reading the chapter and reviewing the materials presented the students will be able to: Understand what makes a spacecraft fly. Identify two types of space transportation modes. List the different types of space vehicles. Explain the types and applications of orbits used to circle the earth.

3 The history of Space Transportation The space extending from 50 miles to 10,000 miles beyond the atmosphere is known as near space. Beyond 10,000 miles is outer space. On October 4, 1957 the Soviet Union launched the first artificial satellite (Sputnik 1) in orbit around the earth. The United States then put their first satellite Explorer 1 into orbit. On April 12, 1961, the Soviet Union put a man in earth’s orbit. After 8 years of intensive planning, the United States launched its first flight to the moon.

4 The Space Environment The troposphere is the closest layer to the earth. It begins at the earth’s surface and stretches about 10 miles (16 km) from the earth. Most clouds and weather patterns originate in this region. The next region, the stratosphere, ranges from the troposphere to about 30 miles above the earth’s surface. The stratosphere contains the ozone layer that helps absorb ultraviolet (UV) radiation from the sun. Outer space is very different from the areas inside the earth’s atmosphere. It contains virtually no air particles. The Space Environment and Vehicle Design: Among the most important characteristics are the extremes of temperature and radiation levels. Another very important characteristic of space is weightlessness.

5 Spacecraft Flight Tools, energy, materials, money, and people are all needed to begin the process. In the case of the space shuttle, the rockets must overcome a large amount of weight (4.5 million pounds). The rocket boosters and shuttle main engines both operate at takeoff and together generate over 7.8 million pounds of thrust. The shuttle generates a speed of over 16,800 miles per hour which allows it to escape the gravitational pull of the earth.

6 Orbiting If a spacecraft increases its speed while in orbit, a greater centrifugal force will result, and the spacecraft could possibly be flung out of orbit. If the spacecraft loses speed, the centrifugal force will decrease, and the spacecraft will achieve a lower orbit or reentry into the earth’s atmosphere. Low earth orbit (LEO) involves orbiting between 180 and 250 miles above the earth. The International Space Station (ISS) as well as many weather satellites, are located in the LEO. Satellites used for imaging are often in polar orbits (north to south) since they can view the entire earth. Geosynchronous orbits (GEO) are use by most communication satellites, because they are stationed in one spot (22,300 miles from the earth) and rotate along with the earth.

7 Space Vehicles Spacecraft include rockets, satellites, space probes, space shuttles, and space stations. Launch vehicles: are used to launch satellites or space shuttles. Satellites: is any object that orbits around another object in space – communication satellites, navigation satellites (GPS). Space Probes: are sent to explore outer space. Sounding rockets: carry payloads that are ejected during flight and fall back to earth.

8 Manned Space Vehicles The space shuttle: In 1981, the first reusable space transportation vehicle was put in use. A total of 6 orbiters were built – Enterprise (never used – only for testing), Columbia, Discovery, Atlantis, Endeavour and Challenger. Space Stations: The Soviet Union launched Salyut 1, in 1971. In 1973, the United States launched Skylab. The Soviet Union launched one other space station named Mir. The International Space Station is a joint effort from 16 countries.

9 Summary The space extending from 50 miles to 10,000 miles beyond the atmosphere is known as near space. Beyond 10,000 miles is outer space. On October 4, 1957 the Soviet Union launched the first artificial satellite (Sputnik 1) in orbit around the earth. The United States then put their first satellite Explorer 1 into orbit. The troposphere is the closest layer to the earth. It begins at the earth’s surface and stretches about 10 miles (16 km) from the earth. Most clouds and weather patterns originate in this region. Low earth orbit (LEO) involves orbiting between 180 and 250 miles above the earth. The International Space Station (ISS) as well as many weather satellites, are located in the LEO. Geosynchronous orbits(GEO) are use by most communication satellites, because they are stationed in one spot and rotate along with the earth. Spacecraft include rockets, satellites, space probes, space shuttles, and space stations. Satellites: is any object that orbits around another object in space – communication satellites, navigation satellites (GPS). The International Space Station is a joint effort from 16 countries.

10 Home Work 1.What Space craft use the low earth orbit? 2.What space craft use geosynchronous orbits?

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