Tuesday, May 28, 2019
The Physics of Space Shuttle Re-Entry :: physics science space
When in orbit the shuttle is positi angiotensin converting enzymed so that it is moving nose-first and the top of the shuttle is pointing towards the earth. The shuttle is positioned bottom up so that the black bottom will radiate the heat from the sun more effeciently. Step one for the shuttle is to turn around so that it is moving serious-first and whence it fires its engines in order to slow the shuttle so that it will drop out of orbit. Next the shuttle flips over so that it is right-side-up when it enters the atmosphere. Between misuse three and four the shuttle burns any excess fuel that it may still have so that there is less of a hazard of explosion when the fuel tanks get hot durring re-entry. Step four is where the shuttle maintains an topple of about 40 degrees from the vertical and maintains an approach so that the shuttle slows down. aft(prenominal) slowing to a speed where the shuttle can maneuver it will fly (remember, the shuttle has no more fuel so it has only one chance to land) in some final S shaped curves to slow some more and then land at a designated airport (as shown below).How Does the move Turn or Maneuver in Space?The basic means of movement for the space shuttle can be explained in Isaac Newtons laws F=Ma and for every action, there is an equal and oposite reaction. The force, on the space shuttle, is equal to the mass of the shuttle multiplied by its acceleration. By burning fuel in a rocket engine on the hold up of the shuttle, a force on the shuttle equal to the mass of fuel being thrown out the stern of the craft multiplied by its acceleration. This basic physics formula is very important to the shuttle getting up into space and to the beginning of its deceleration on its return to earth. Thus it has a very real impact on weather the shuttle will survive the trip through the earths atmosphere back to land. When the shuttle first enters the earths atmosphere it is traveling at speeds topping 30,000 km/h. The shuttle has to decelerate to 0 km/h after it lands. The acceleration that it must(prenominal) endure to slow the shuttle is an incredibly large force on the structure of the craft.When the shuttle is entering the atmosphere it must enter at an angle window of only a few degrees.
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