When I multiply 3600 seconds per hour by 24 hours per day by 356 days by 6.8 pounds per second and divide by 2000 pounds per ton I come up with 104578.56 tons as your propellant tonnage to reach light speed. When I multiply 3600 times 24 times 1.73 times 6.8 and divide by 2000, I come up with 3599.858832 tons of propellant to reach max velocity to Mars. What am I missing?

No one has seen the Oort cloud; it has been postulated from the somewhat random orientation of the planes of the orbits of long period comets. The cloud is assumed to be spherical, a spherical shell around the solar system. If so, it will be hard to reach any other stellar system without passing through it. I'm assuming that the spherical shell is several tenths of a light year thick and ranges from about 50000 to 76000 AUs although I've seen other values for its size. If we can't observe the Oort cloud directly, we can't know how thick intragalactic space is populated with similar objects because our current instruments can't see them either. Again, caution is advised. Remember you can't acquire data fast enough to detect and avoid objects after the ship passes about 0.4c. The radar round trip is the time required for the ship to travel 0.8c-seconds (148800 miles) then you add detection and processing time to determine whether and where trajectories will intersect and to compute and command steering instructions.

What is the maximum rate of steering angle change the math will support. Have you constructed a safe rate of direction change as a function of ship velocity? At velocities equal to or greater than 0.5c you can't detect an object on a collision course much less avoid it.

When traveling at c, 186000 times 5280 = 982080000 feet per second. The cosine of 5 degrees = 0.999614. A five degree change in direction per second would generate (1 - 0.999614)* 982080000) feet per second velocity change = 379082.88 feet/sec. If it takes 5 seconds (the ship will have traveled 5*186000 miles) to effect the change in direction, the g force is 379082.88/5/32 = 2369.268 g's. This seems a bit much for people and equipment mountings to withstand. Science fiction writers conveniently avoid troublesome unpleasantries.


From d = at*(1 + 0.5*t) and using 32 feet/sec^2 for a, I get a tad over
1433453381934.54 miles or just under 15413.48 AUs traveled in 356 days. Due to uncertainities of our understanding of the distance to the inner radius of the Oort cloud you may not have reached it before you would have reached light speed.



Should this value be 987.960 km/sec?

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For those inclined to oppose human meddling with the structure of the universe or the composition and configuration of objects and groups of objects within the universe, consider:
Whether there is a limit to the magnitude of a modulation of chaos below which order remains invariant? Or, is order but a fiction invented by perspectives applied over finite, however large, time intervals?