#2091
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"G=EMC^2 Glazier" wrote in message ... What if here is no flying saucers built by aliens going through deep(galactic) space? Reason is they all would build their space craft as a ball(right Darla) Its really the only way to go. A sphere(ball) has no wasted space. Nature loves this shape because it is so symmetrical. Build a spacecraft perfectly round and have its equator plane revolving at a speed that would equal Earth's gravity force. Its axis poles would have no force of gravity,and that would make ideal sleeping areas. Keep in mind that a spinning sphere can be said to have super symmetry. As you know I'm big on spin. I like round Walking on the inside of the ships walls is just the same as walking on the Earth's surface. Inside a push force,and outside like here on Earth's surface a pull force,but they are equivalent Einstien told us that Bert |
#2092
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Try tossing a ball straight up while standing on that wall.
"G=EMC^2 Glazier" wrote in message ... What if here is no flying saucers built by aliens going through deep(galactic) space? Reason is they all would build their space craft as a ball(right Darla) Its really the only way to go. A sphere(ball) has no wasted space. Nature loves this shape because it is so symmetrical. Build a spacecraft perfectly round and have its equator plane revolving at a speed that would equal Earth's gravity force. Its axis poles would have no force of gravity,and that would make ideal sleeping areas. Keep in mind that a spinning sphere can be said to have super symmetry. As you know I'm big on spin. I like round Walking on the inside of the ships walls is just the same as walking on the Earth's surface. Inside a push force,and outside like here on Earth's surface a pull force,but they are equivalent Einstien told us that Bert |
#2093
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Or a flat plane so one could maximize energy collection from a nearby star.
(Seems there may be no 'best' shape). "Benign Vanilla" wrote in message ... "G=EMC^2 Glazier" wrote in message ... What if here is no flying saucers built by aliens going through deep(galactic) space? Reason is they all would build their space craft as a ball(right Darla) Its really the only way to go. A sphere(ball) has no wasted space. Nature loves this shape because it is so symmetrical. Build a spacecraft perfectly round and have its equator plane revolving at a speed that would equal Earth's gravity force. Its axis poles would have no force of gravity,and that would make ideal sleeping areas. Keep in mind that a spinning sphere can be said to have super symmetry. As you know I'm big on spin. I like round Walking on the inside of the ships walls is just the same as walking on the Earth's surface. Inside a push force,and outside like here on Earth's surface a pull force,but they are equivalent Einstien told us that Bert Or since there is no wind resistance in space, how about a giant cube so you can maximize useful space which is lost a sphere? -- BV Webporgmaster of iheartmypond.com Check out the IHMP forums, ihmp.net/phpbb I'll be leaning on the bus stop post. |
#2094
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"Try tossing a ball straight up while standing
On that wall." ~ Wings "Where?" ~ Moi |
#2095
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Hi wings Standing in the equator area of the spacecraft that is
revolving to give you a one "G' and throwing a ball up would be no different than standing on the Earth. The ball is moving relative. Bert |
#2096
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"G=EMC^2 Glazier" wrote in message ... Hi wings Standing in the equator area of the spacecraft that is revolving to give you a one "G' and throwing a ball up would be no different than standing on the Earth. The ball is moving relative. Bert |
#2097
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"G=EMC^2 Glazier" wrote in message ... Hi wings Standing in the equator area of the spacecraft that is revolving to give you a one "G' and throwing a ball up would be no different than standing on the Earth. The ball is moving relative. Bert Ahhh, but the minute the ball leaves your hand it will go in a straight line. You will not. You are forced by the floor to go around in a curved path. This leads to an effect similar (same?) as the Earth's corioless effect. Different starting velocities upward will result in the ball coming down in different spots. You are not aware that you travel in a circle, so the ball's behavior looks a tad strange. If that's hard to see, imagine throwing the ball with enough force that it passes the center of the ship, heading away from you. |
#2098
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Hi wings The Earth is our space ship. NASA uses the Earth's speed of
1000mph when it wants objects to achieve orbit. NASA lands rovers on Mars close to its equator for the same reason..Shoot a bullet straight up say 2,000 feet on a day with no wind and it will fall right next to you. Bert |
#2099
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Hi wings There is a picture thought. At the equator the Earth is
spinning at 1030mph lets have it stop spinning instantly. The ocean water would shoot into space at 1030 mph. Well not to worry the water will fall back to the Earth's surface Water stays put because its relative motion is the same as the surface of the Earth that it is resting on. Bert |
#2100
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You are correct with a minor altitude climb on a vast thing like the Earth.
But imagine shooting your bullet out to a distance where the Earth has revolved enough to be going in the opposite direction at the launch point before the object returns. ... Hummm? Hold on...Think I talked myself into a hole here. There would be a thousand mile per hour lateral displacement none the less. If the object takes 12 hours to return it will return to the launch site it appears. Gonna take a hit on this and give you the points. Gotta think some more about the inside of that spaceball, however. (grin) "G=EMC^2 Glazier" wrote in message ... Hi wings There is a picture thought. At the equator the Earth is spinning at 1030mph lets have it stop spinning instantly. The ocean water would shoot into space at 1030 mph. Well not to worry the water will fall back to the Earth's surface Water stays put because its relative motion is the same as the surface of the Earth that it is resting on. Bert |
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