Propulsion Module By: Wyatt Proudfoot

Slides:

Advertisements

Similar presentations

Contexts > Rockets > Rockets and space Saturn V Pronounced ‘Saturn five’. NASA, USA. Saturn rockets launched Apollo missions to Moon, 1968 to Apollo.

Advertisements

All of the planets in our solar system revolve around our sun. Today you will investigate the speeds at which they move around. Orbiting Our Sun.

Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune Dwarf Planets Sun Eris Pluto Ceres By Michelle Stephens.

International Space Station Dane Fujinaka Noa Bryan.

Conversations with the Earth Tom Burbine

NASA_G_O_02_09_05.ppt 1 National Goals and Objectives National Goal To advance U.S. scientific, security, and economic interests through a robust space.

Current Space Missions (Part 2)

GPS Satellites Satellite-based navigation system originally developed for military purposes (NAVSTAR ). NAVSTAR Global Positioning System (GPS) Globally.

 President Ronald Regan committed to developing a space station back in 1984!  Zarya was lifted into orbit on November 20th, 1998 by a Russian Proton.

International Space Station RYAN CRAFTON. International Space Station.

Unmanned Space Programs. What is the difference? Artificial Earth Satellite  A space vehicle built to orbit the earth and perform a specific function.

Welcome back to the planetarium 5th grade Mr. Taylor.

HALEY GAYDEN INTERNATIONAL SPACE STATION. BACKGROUND The International Space Station took 10 years and over 30 missions to assemble. The space station.

Click once to begin. All images from unless otherwise noted.

Human space history The ISS Obtaining O 2 and removing CO 2 Eating in space Sleeping in space Showering and using the bathroom in space Experiments in.

SPACE EXPLORATION. Ancient Astronomy Ancient Greeks: Geocentric Model.

NASA Fiscal Year 2016 Budget 9 April NASA Budget for 2016 In a presentation at the Kennedy Space Center in Florida, NASA Administrator Charlie.

3 rd Grade Class BY Mallory Casel Fun Facts  36 million miles away from the sun.  Maximum temperature is 870˚F  Minimum temperature -300˚F  Mercury’s.

Survey of the Universe Tom Burbine

MERCURY THE SMALLEST OF THE EIGHT PLANETS AND THE CLOSEST TO THE SUN..

SCALES: PLANETARY. Andromeda Galaxy: 2 million light-years away Problem Problem for Astronomers: there is no sense of depth from looking at the sky. minutes.

1 Head of Russian Federal Space Agency ISS Program International Cooperation Paris, June 17, 2009.

By: John Yentzer And Corey Bollinger. Mercury 1. Distance From Sun-57,910,000 km (0.38 AU) 2. 1 Mercury Year equals 58.7 Earth Days 3. Mercury is about.

Living in Space. Skylab From its launch on May 14, 1973, until the return of its third and final crew on Feb. 8, 1974, the Skylab program proved that.

Light Years Away.. Questions 1-10 (1 point each) Question 11 (2 points) Total Points (12 Points)

Tools of an Astronomer After School Astronomy Clubs Dorian Janney.

The Solar System We’ve always known that there were seven objects in the Solar System.

Dawn Dawn Mission. Dawn How Do We Get There? Dawn DAWN A Journey to the Beginning of the Solar System Vesta Travel Plans: Dawn’s Itinerary The Dawn Spacecraft.

Which units are best to describe the distances of objects to the wall? What unit would you not use to describe far distances? Why? Starter: Describe what.

What is Global Positioning System (GPS). HOW IT FUNCTIONS… The Global Positioning System (GPS) is actually a worldwide radio-navigation system formed.

Planets Distances and Scientific Notation

Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine

Mir Space Station Presented By: David Garnetti. Brief History of Mir The first space shuttle docked with Mir in 1986 The first space shuttle docked with.

© 10-Day Grade 5 STAAR Science Review Day 7 – Earth and Space Readiness TEKS 5.8C Supporting TEKS 5.8D and 3.8D.

SPACE. What is the ISS? The International Space Station.

Space Station Will it be accessible for You and Me?

Yuri Gagarin was the first man to ever go into space! Gagarin’s spacecraft, Vostok 1 completed one orbit Earth, and landed about two hours after launch.

Chapter 13 Section 3 – pg 515 Exploring Space Today.

International Space Station Clayton Wilson. ISS Artificial satellite in low earth orbit. First launched in Largest artificial body component in.

The final Space Shuttle has landed… Now what??. The Space Shuttle Since 1981, NASA space shuttles have been rocketing from the Florida coast into Earth.

SPACE TRAVEL. NOT A CONSTANT SPEED Lift off Need most speed Atmosphere Creates friction ;drag Gravity of objects Sling-shot.

Orbital Mechanics Ted Spitzmiller.

History of Space Exploration Earth Science Mrs. Baker.

Neptune is the eighth planet from the sun Neptune’s distance from the sun is 30.1 A.U. The distance in kilograms from the sun is 4,503,443,661.

Mars was named after the roman god of war. Who discovered Mars? When? How? Where? A lot of people discovered Mars. On July 20,1976 discovered Mars by.

The Planets SPACE. Learning Goals  To be able to describe the planets of our solar system.

Covers objectives 5, 10, and 11.   Space Shuttle History Space Shuttle History.

Mars Mercury Neptune Earth Jupiter SaturnUranus Venus QUESTION Begin by clicking on the images to explore each of the planets in our solar system.

National Goals and Objectives

The particle of dust has a mass of

The Future of Human Spaceflight *** A Journey to Mars

Solar systems Solar systems By Mikey By Mikey.

Transatlantic Jet.

Orbits Falling objects are actually in orbit!

Space Exploration.

Norm Herr (sample file)

The International Space Station (ISS)

International space station (iss)

Bell work 9/18 to 9/22.

Space Exploration Telescope: a device built to observe distant objects by making them appear closer. (Italian scientist Galileo used a telescope to look.

Space Travel Present & Future

Space: The Final Frontier

Humans in Space and Space Exploration

Rank these objects by distance

Design 6 Classes 4th Quarter Lunar/Mars Rover Science Project

Natural Sciences and Technology Grade 6

Nine Planets and the Space Probes

The hubble telescope Carlota.

Presentation transcript:

Propulsion Module By: Wyatt Proudfoot

The international Space Station is a microgravity laboratory. A crew of six occupies the station at all times, traveling at the speed of five miles a second, orbiting the Earth every 90 minutes. The ISS was first Launched in 1998.

The space station has been continuously occupied since More than 200 people from 15 countries have visited the station. Partner ships Include the US, Russia, Japan and Canada.

The crew spends about 35 hours each week performing research about the Earth, Space, Physical, and Biological sciences.

The station operates as a national laboratory for scientific research.

More than an acre of solar arrays provide power to the station, making it the second brightest thing in the night sky other than the Moon. It has taken 13 years and about $150 billion to build and fly the ISS. Periodically, the ISS will have to be boosted to maintain its height, due to atmospheric drag.

The space station allows research and technology developments that will benefit human and robotic exploration beyond low-orbit Earth such as asteroids and Mars.

The space station has an internal pressurized volume of 32,333 cubic feet. The solar array is 240 feet long. The space station weighs approximately 925,000 pounds. The space station measure 357 feet end to end.

Fifty-Two computers run the systems on the ISS. There is 3.3 million lines of software code on the ground support 1.8 million lines of flight software code. Eight miles of wire connects the electrical power.

Module Length: feet (51 meters) Truss Length: feet (109 meters) Solar Array Length: feet (73 meters) Mass: 924,739 pounds (419,455 kilograms) Habitable Volume: 13,696 cubic feet (388 cubic meters) Pressurized Volume: 32,333 cubic feet (916 cubic meters) Power Generation: 8 solar arrays = 84 kilowatts Lines of Computer Code: approximately 2.3 million

Propulsion Module

 Provides multi-directional movement  Altitude control  Space travel  Evade foreign objects  Adjust speed  Allows observation of objects out of orbit  Rotational control  Automated  Long distance voyages  Allows for extractions

   Station Station 