Controversies in Spacial Viewing

NASA and other Space Programs have failed to explain the sizes of stars. If Mercury, Mars and Venus are easily seen from Earth, and Pluto, Neptune, Saturn; and, the giant jupiter are not seen by casual viewing, how are stars viewable? Pluto is within 1 light year from the earth; yet, stars are claimed as thousands of light years to billions of light years away. Many questions arise from that data such as: [1] If the stars are thousands of light years away, are stars in excess of 1 Light year diameter? [2] Are stars magnified in some manner? How? [3] Why are nebula and quasars which are billions of times larger than stars not visible? [4] Where is the giant sun; or, billions of suns that illuminate trillions of stars? They are not visible when viewing the sky. Answers are: [1] Many stars are in excess of light years in diameter; but, not billions of light years in diameter to be viewable billions of light years away. The intensity of their lights; as well as well as diffractive magnifications allow viewing. [2] Stars are magnified by electromagnetic magnification. [3] The nebula and quasars are not sufficiently bright in intensity to be viewable. Their light frequencies are too dark. [4] Suns are not easily viewable at extreme distances; especially, if they are small. The photonic frequencies are not magnifiable also. Deterioration of light energy does not allow certain frequencies to be transmitted through extreme distances. Light of specific stars are transmittable.

Computer Disc Storage Media Data

Computer disc storage will consist of a platinum or a stainless steel computer disc; in the place of the standard disc.

Space Travel Techniques of Movement

My space vehicles utilize laws of displacements in space. The vehicles are not propelled. They are dislocated and relocated to be placed in another area of space. It is a passive type of travel unlike propulsion. The space vehicle raveling into deep space cannot utilize nuclear power due to the intense radiation in space that would; or could, arc with he nuclear materials and cause explosion.

Living in Deep Space

When travelling in deep space, very technique ; that is efficient, must be used to prevent extraction of energy. In black holes, energy is pulled out of everything. Life support systems fail; as well as other energized and powered devices. The result could be total disintegration. In white holes, energization of everything; including human, could result in overenergization of everything. That would result in disintegration. By reverse polarizing the energy, the energy is diverted back into its own environment. In extremely static environments, the flux field with simply neutral polarize, and still cause excessive damage.

Space Utilities

Diet: *Nutrient Drink: 235ml Daily *Protein Shake: 327 ml Daily *Vegetable Concentrate: 15ml TOTAL: 577 ml/ 210,605 ml Yearly/ 2,106.05 L/ 100 Years= 21.0605 million ml/210,605L/55,639.95509 Gallons/ 1011.63555- 55 gallon drums 5 pounds food daily: [1] 1,825 lbs./ 0.912 tons [2] 100 years= 182,500 lbs/ 91.25 tons Bathing: 150 ml water daily/ 54,750 ml yearly/ 14,463.41987 gallons yearly/ 144,634.1987 gallons in 100 years 500 ml water daily with hair wash: 82,500 ml/ 48,211.39956 gallons yearly/482,113.9956 gallons in 100 Years Moisture towelettes will be used for bathing with soap. Moisture towellettes will be used or washing off soap. Moisture towellettes will be used for toilet paper. Dental Care: Baking soda solution in a toothpaste type container for brushing teeth Potable water: 1 gallon daily/ 365 gallons yearly/ 3,650 gallons in 100 years= 73- 55 gallon drums Prescription glasses: Nitinol frames [1] Quartz lenses [2] Teflon PFA lenses Microscopes: Computer enhanced and magnified 14,000 X 14,000 pixels imaging