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You Can’t get There From Here A View of Prospects for Space Travel.

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Presentation on theme: "You Can’t get There From Here A View of Prospects for Space Travel."— Presentation transcript:

1 You Can’t get There From Here A View of Prospects for Space Travel

2

3 The Rocket Equation Rockets work on the principle of Conservation of Momentum

4 Consequences of the Rocket Equation

5 How Much Fuel Do You Need?

6 The Cost to Accelerate

7 Power and Acceleration. I. 1 gravity (g; 980 cm/s 2 ) is a comfortable acceleration a=2P/ms, where a is the acceleration, P is the power, m is the mass, and s is the exhaust speed. A chemical rocket requires P>1.5 kW/kg Burning 2H 2 + O 2 -> 2H 2 O liberates 4 kW hr/kg. To accelerate a mass m at 1g requires burning H 2 +O 2 at a rate of 10 -3 m gm/sec. The Saturn V burned 3000 tons of kerosene+O 2 per second.

8 Power and Acceleration. II. To accelerate at g: A chemical rocket must generate 1.5kW/kg A nuclear fusion rocket must generate 440 mW/kg A matter-antimatter rocket must generate 1.5Gw/kg Power plants typically generate 0.5-1 Gw of power

9 The Speed Limit c = 3 x 10 5 km/s

10 Special Relativity to the Rescue?

11 Time Dilation. I. Theory

12 Time Dilation. II. Practice

13 Possible Outs. I. Why carry your fuel? The Bussard Ramjet Space is not empty: about 0.1 H/cm 3 Hydrogen is an excellent fuel To sweep up 1 gm of H, with - v = 0.99c - 100% efficiency requires a scoop radius of 40 km.

14 The atoms appear to be coming at you at 0.99c - or with 6 GeV (0.01 erg) rest energies How do you stop them?

15 Possible Outs. II. Why carry your fuel? The Light Sail Works just like a sailboat, by conservation of momentum. p = E/c (momentum carried by a photon) a = 2P/mc (acceleration; P=power) P = LA/4  d 2 (L=luminosity; A=sail area) To accelerate a mass of 100 tons at 1 g requires P=150,000 GW, or a sail the size of a star, when you are a 2 light years out (half way between the stars.

16 Possible Outs. III. Why go all the way? Look for a wormhole. The shortest distance in 3 dimensions may not be the shortest in 4 (or more) dimensions! An Einstein-Rosen bridge is a wormhole connecting two different universes. (see COSM) Do wormholes exist? Solutions of General Relativity permit them. They are unstable (barring exotic matter with a negative energy density). They require a “white hole” on the other end, which violates the second law of thermodynamics.

17 Possible Outs. IV. Warping space. You can exceed c globally; you cannot exceed it locally. If you can make space contract ahead, and expand behind, your local space can move with an arbitrarily high velocity. Warping space requires: An awful lot of energy Exotic particles with negative energy Negative gravity But you get: Arbitrarily fast speeds No time dilation No acceleration No causal paradoxes

18 Conclusions 1g accelerations are convenient for human space travel. Chemical fuels can provide this acceleration, but the small S means that m i /m f is prohibitive. Nuclear fusion provides better mass ratios, at the cost of low acceleration. Matter-antimatter provides the best mass ratios, but requires the most power. At present, there is no reasonable expectation of travel at 1g accelerations for significant distances. Space is big; space travel is slow.

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