| Paying attention to simple techniques in physics in | | | | I attached a small gage to give me readings of the |
| using simple ideas, such as the steam engine we | | | | pressure inside the kettle. I then attached a small |
| could venture further into outer regions of our | | | | variable control valve at the end of the nozzle. I filled |
| Universe without difficulties. Water tanks made of | | | | the kettle with water and placed it in the freezer |
| thick heavy-duty titanium steel that would withstand | | | | overnight. |
| enormous pressure, attaché nozzles to them, | | | | The following day I connected the kettle with the |
| filed them up with water to the ream of the nozzle, | | | | frozen water to a roller skate with four little wheels. |
| and freeze it. Attaché a control valve at the | | | | I then began applying heat to the kettle with a |
| end of each nozzle to control the released heated | | | | burning torch. Watching the gage for the proper |
| pressure once heat is applied. | | | | reading, when I saw the kettle starting to shake and |
| Take these tanks attach them, to rockets sent into | | | | to inflate like a balloon. Afraid that it was going to |
| space and stored them at the International Space | | | | blow up I stopped applying heat. |
| Station for future use. Keeping them in orbit around | | | | I then carefully started opening slowly the valves. As |
| the Earth, you could use them as the propellant fuel | | | | I did, the kettle began to move in the opposite |
| for travel to Mars and beyond. | | | | direction from where the steam was escaping. The |
| These tanks attached to a spacecraft and properly | | | | more I opened the valve the faster the kettle |
| controling the releasing of the steam pressure will | | | | moved forward. Showing the same principle would |
| control the speed of the spacecraft while in flight. | | | | workto a spacecraft in space. |
| Once the spacecraft is in motion in space it will | | | | The second experiment I did the same, but with one |
| continue its journey until stopped. In a trip to Mars, | | | | exception I made the kettle much stronger able to |
| the tanks could be refill with water found in the | | | | withstand more pressure. In doing so I got the same |
| planet, preferably sea water or salty water,freezing it | | | | results as the first but much more potent in pressure. |
| to use on the return trip to Earth. | | | | The gage read a greater pressure double the |
| In theory, a cluster of these tanks filed with frozen | | | | pressure from the first. |
| water could remain in orbit attaché to the | | | | In converting, the frozen water into steam the first |
| space station for future strips to the outer regions in | | | | kettle almost began to break apart, while the second |
| space. Use of these tanks could be an inexpensive | | | | held tight with no signs of stress in being stronger |
| means of propellant fuel for future space travel. | | | | and thicker. |
| The next step would be a simple matter of getting | | | | Further experiment showed that when using water |
| the Astronauts and a spacecraft like our space | | | | with a high concentration of salt caused the water to |
| shuttle out in orbit. Attaching these tanks as a means | | | | boil hotter with more pressure. Seawater can be |
| of propellant to the space shuttle and in theory could | | | | used and it is in great abundance through out the |
| propel the space shuttle on a journey to any region | | | | World. More likely also in other planets as well; |
| in space. This propellant could replace the dangerous | | | | This experimen showed space travel to be less |
| and expensive ones used today. | | | | expensive,reliable, and feasible in reducing the time of |
| During my research while conducting my experiments, | | | | getting spacecraft into further regions of the |
| I made several small workable samples of a steams | | | | Universe. |
| engine. The first one was a small steam kettle where | | | | |