Transcription of Mathematics of Space
1 Educational Product Educators Grades 5-12. National Aeronautics and Space Administration Liftoff to Learning Mathematics of Space - Rendezvous A Videotape for Mathematics Video Resource Guide EV-1998-02-014-HQ. Mathematics of Space - Rendezvous - Video Resource Guide - EV-1998-02-014-HQ 1. Video Synopsis Shuttle astronauts have gained valuable practice in the maneuvers they will need to work with the ISS. These maneuvers are Title: The Mathematics of Space - complex and docking is a delicate operation. Rendezvous Each maneuver employs extensive use of Mathematics to achieve the objective.
2 Length: 17 minutes The objective of this video is to invite students to work out some of the fundamental Subjects: The Mathematics of spacecraft equations Shuttle crews use for rendezvous. orbital rendezvous. The equations presented in the video are listed in a following section of this guide. Description: Some students may become confused This program addresses the basic with some of the mathematical operations mathematical operations of spacecraft shown. The video is designed with stopping rendezvous in Earth orbit. Middle school places for you to work the Mathematics with students in a Mathematics class work to solve your students.
3 Some problems that permit the Space Shuttle One rendezvous concept presented in to rendezvous and dock with the Russian the video may need some additional explana- Space Station Mir. The video has stopping tion. By firing its rocket engines to increase points to permit viewers to work the problems velocity, the Space Shuttle actually slows as well. down. Conversely, firing engines to slow down causes the vehicle to speed up. These Mathematics Standards: paradoxical statements are easier to under- stand when you remember that movement in Mathematics as Problem Solving Space is a three-dimensional problem.
4 Mathematics as Communication Changes in velocity leads to changes in Mathematics as Reasoning altitude. Computation and Estimation On Earth, rendezvous between two Algebra automobiles is a relatively simple operation. Geometry Both drive at specific speeds to arrive at a Measurement specific location. When the automobiles arrive at the right place, they stop. In Space , Background the rendezvous location is over a specific In a few years, the International Space Sta- place on Earth but it is also at a specific tion (ISS) will be ready for full-time occupancy altitude.
5 When the two spacecraft arrive, they by crews of astronauts. From their vantage cannot stop. Doing so will cause them to fall point in Space , astronauts will study Earth's back to Earth. Instead, their rendezvous is at environment and conduct a variety of scien- a specific location and altitude (three dimen- tific and technological experiments that will sions), and at a specific time. Time is impor- ultimately help to improve life on Earth. tant when you consider that the spacecraft One of the critical tasks to the con- will be traveling at 5 or more kilometers per struction and use of a Space station is the second.
6 A mere 5-second error will cause the ability to rendezvous in Space . Conse- spacecraft to miss each other by 25 kilome- quently, the first phase of the International ters. Space Station program is a series of Space The nature of Space rendezvous is Shuttle mission rendezvous and docking also complicated by some basic physical activities with the Russian Space Station Mir. laws. Altitude and velocity of a spacecraft By bringing crew and equipment to Mir, 2 Mathematics of Space - Rendezvous - Video Resource Guide - EV-1998-02-014-HQ.
7 Are related. Spacecraft in low orbits travel your rocket engines to accelerate. The accel- very fast because the gravitational pull is eration causes your spacecraft to climb higher strong. In higher orbits, spacecraft travel above Earth. As you climb higher, your slower because the force of gravity is less. velocity diminishes until you are traveling at The force of gravity between two objects the right velocity for the higher orbit. It is a (Earth and the Shuttle) is determined by the slower velocity than you were traveling before following mathematical relationship that was the firing of the engines.
8 In other words, you first formulated by Isaac Newton and later sped up so that you could slow down in a modified by Henry Cavendish. higher orbit. The reverse is true if you want to go to m 1 m2 a lower orbit. To descend, you fire rocket f =G 2 engines in the opposite direction you are r traveling. This causes your spacecraft to G in the equation is the gravitational con- slow. Earth's gravity pulls your spacecraft stant. The r in the equation is the distance downward, and as you fall, your speed in- between the center of Earth and the center of creases until you are at the right speed for the the Shuttle (not the altitude of the Shuttle new altitude.)
9 Your speed is greater in the over Earth's surface). As you can see, r has lower orbit. Thus, you slowed down to speed an inverse square relationship in the equa- up. tion. That means that the closer the centers Although somewhat complicated, this of the two bodies are to each other, the paradox helps to accomplish rendezvous. greater the force of attraction. It also means For example, when the two spacecraft are on that increasing the distance between the opposite sides of Earth from each other, centers decreases the attraction by an in- having one spacecraft in a lower orbit will verse square.
10 Enable it to close the distance. In the lower The difference in gravitational attrac- orbit, the spacecraft will not only travel faster tion with change in distance (orbital altitude) than the higher spacecraft, but the orbit has a is where the speed-up/slow-down paradox smaller circumference as well. After closing comes in. You must travel faster in a lower the distance, the lower spacecraft can begin orbit than a higher one to stay in orbit. If you maneuvers to adjust to the right altitude for want to go to a higher orbit, you must fire the rendezvous.