Engineers Group Ms. Tamez 2008-2009. Physical: Our project is related to the physical sciences such as physics, chemistry and astronomy since it deals.

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Engineers Group Ms. Tamez

Physical: Our project is related to the physical sciences such as physics, chemistry and astronomy since it deals primarily with non-living materials.

A Pictorial History of Rockets The mighty space rockets of today are the result of more than 2,000 years of invention, experimentation, and discovery. First by observation and inspiration and then by methodical research, the foundations for modern rocketry were laid. Building upon the experience of two millennia, new rockets will expand human presence in space back to the Moon, to Mars and the asteroids, and beyond. These new rockets will be versatile. They will support Earth orbital missions, such as the International Space Station, and off-world missions millions of kilometers from home. Already, travel to the stars is possible. Robot spacecraft are on their way into interstellar space as you read this. Someday, they will be followed by human explorers presented here.

A Pictorial History of Rockets Often lost in the shadows of time, early rocket pioneers “pushed the envelope” by creating rocket-propelled devices for land, sea, air, and space. When the scientific principles governing motion were discovered, rockets graduated from toys and novelties to serious devices for commerce, war, travel, and research. This work led to many of the most amazing discoveries of our time. The vignettes that follow provide a small sampling of stories from the history of rockets. They form a rocket time line that includes critical developments and interesting sidelines. In some cases, one story leads to another, and in others, the stories are interesting diversions from the path. They portray the inspirations that ultimately led to us taking our first steps into outer space. NASA’s new Space Launch System (SLS), commercial launch systems, and the rockets that follow owe much of their success to the accomplishments presented here.

A Pictorial History of Rockets Chinese Fire Arrows, A.D The origins of gunpowder are not clear, but the Chinese reportedly had a rudimentary form of it in the first century, A.D. A mixture of saltpeter, sulfur, and charcoal dust produced colorful sparks and smoke when ignited. The powder was used to make fireworks. Tubes of bamboo and leather, closed off at one end, were packed with gunpowder. Depending upon how the powder was packed and the size of the opening, a fountain of sparks or a bang would result when the powder was ignited. It is likely that some fireworks skittered about because of the thrust produced from the gases escaping the open end. Thus the rocket was born. By 1232, these primitive rockets were attached to arrows and used to repel Mongol invaders in the battle of Kai-keng.

A Pictorial History of Rockets Galileo Galilei, 1564 to 1642 In addition to his many other accomplishments, this Italian astronomer and mathematician rekindled the spirit of scientific experimentation and challenged old beliefs relating to mass and gravity. He proved that an object in motion does not need the continuous application of force to keep moving. He called this property of matter, which causes it to resist changes in velocity, “inertia.” Inertia is one of the fundamental properties that Isaac Newton would later incorporate into his laws of motion.

A Pictorial History of Rockets Newton’s Laws of Motion, 1642 to 1727 English scientist Sir Isaac Newton condensed all rocket science into three elegant scientific laws. Published in Philosophiae Naturalis Principia Mathematica his laws, previously understood intuitively by early rocketeers, provided the foundation for all modern rocket science. (The “Rocket Principles” chapter focuses on these laws and the “Practical Rocketry” chapter demonstrates the applications of these laws.)

A Pictorial History of Rockets Robert H. Goddard, 1882 to 1945 American college professor and scientist Robert Goddard built and flew the world’s first liquid propellant rocket on March 16, Its flight, though unimpressive (it climbed only 12.5 meters), was the forerunner of the Saturn V Moon rocket 43 years later. At the request of local townsfolk, Goddard moved his experiments from Auburn, Massachusetts, to the deserts around Roswell, New Mexico. There he continued his experiments and developed a gyroscope system to control his rockets in flight, instrumentation payload compartments, and parachute recovery systems. He is often referred to as the “father of modern rocketry.”

A Pictorial History of Rockets “One Small Step...” At 10:56 p.m. EDT, July 20, 1969, American astronaut Neil Armstrong set foot on the Moon. It was the first time in history that humans had touched another world. He was followed to the surface by Edwin “Buzz” Aldrin, Jr. A third astronaut, Michael Collins, remained in lunar orbit in the Apollo capsule. The Apollo 11 mission was the first of six Moon landings extending to the end of The astronauts’ spacecraft, the lunar module, consisted of a descent and an ascent stage. The descent stage had four legs and a powerful rocket engine to slow the craft for landing on the Moon. After surface explorations, the upper part of the lander lifted off, using its own rocket engine, and rendezvoused with the Apollo capsule for the return to Earth.. Click

 “Do Launch Angles Affect the Range(How Far it Flies) of the Rocket?”

 Controlled variables: These are the things that are kept the same throughout our investigation  Independent variable: The one variable that we purposely change and test.  Dependent variable: The measure of change observed because of the independent variable. It is important to decide how we are going to measure the change. “Do Launch Angles Affect the Range(How Far it Flies) of the Rocket?” Variables Dep.Ind. Cont.

If we change the launching angle of the rocket, the range of the rocket will increase at 6O degree angle. Hypothesis

 Materials  Empty (and rinsed) 2-liter plastic soft drink bottle  2 1/2” PVC tee connectors  1 1/2” PVC connector  2 1/2” PVC caps  1- 5’ length of 1/2” PVC pipe  Duct tape  Ruler  Optional: PVC cutter  Eye protection for anyone near launcher Materials

Procedure  Procedure  1. Cut the PVC pipe into the following lengths:  3 pieces 12” long  3 pieces 6” long  2. Insert the end of one 12” pipe a few inches into the neck of the bottle and tape it securely with duct tape.  3. Follow the construction diagram below for assembly of the launcher.  The launcher is ready for use.

Procedure  1. Place the launcher in an open space and tilt the launch tube in the desired direction. If there is a light wind, aim in the direction of the wind. If shooting at targets, have each student aim the launcher for his or her flight.  2. Make sure the landing zone is clear of anyone who might be hit by the rocket.  3. Put on eye protection and do a countdown to zero.  4. Stomp or jump on the label of the bottle. This will force most of the air inside the bottle through the tubes and launch the rocket.  5. Reinflate the 2 liter bottle. Separate the bottle from the launcher by pulling it from the connector. Wrap your hand around the pipe end to make a loose fist and blow through opening into the pipe. Doing so keeps your lips from touching the pipe. Reconnect the bottle to the launcher and it is ready to go again.  6. When the landing zone is clear, put on the goggles, slide the rocket on to the launcher, aim the launcher, do the countdown, and stomp on the bottle.

Procedure  Procedure  1. Cut the PVC pipe into the following lengths:  3 pieces 12” long  3 pieces 6” long  2. Insert the end of one 12” pipe a few inches into the neck of the bottle and tape it securely with duct tape.  3. Follow the construction diagram below for assembly of the launcher.  The launcher is ready for use.

Analyzing the Results Data and Observations Trials35 Degree <45 Degree <55 Degree < 13 m8m3m m2m 35 m9m3m 44 m9m2m Average3.75m8.4 m2.5m

Analyzing the Results Data and Observations

 The 45 degree launching angle increased the distance that the rocket traveled. Conclusion

Project Overview “ Our hypothesis was incorrect since the 45 degree launching angle increased the distance the rocket traveled.”

 All Science Fair Projects Browse ideas by topic or grade level. You can also search if you know your topic. Be sure to look at the grade level of the project. Nasa  Charts and Graphs Twin Groves Middle School in Buffalo Grove, Illinois has a great website that discusses different graphs that can be used to display data. ence+experiments%2522&ste=10&st=b References

 Charts and Graphs Twin Groves Middle School in Buffalo Grove, Illinois has a great website that discusses different graphs that can be used to display data. riments%2522&ste=10&st=b References