Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byNoreen Horton Modified over 9 years ago

Similar presentations

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.

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

Similar presentations

Faster-Than-Light Paradoxes in Special Relativity

Faster-Than-Light Paradoxes in Special Relativity
relativity Quantum Classic physics Modern physics.

relativity Quantum Classic physics Modern physics.
Star Trek Physics. Artificial Gravity and General Relativity The Principle of equivalence states that ‘Gravity is the same thing as acceleration.’ Anything.

Star Trek Physics. Artificial Gravity and General Relativity The Principle of equivalence states that ‘Gravity is the same thing as acceleration.’ Anything.
Physics 55 Friday, December 2, 2005 1.Quiz 7 (last quiz) 2.Relativistic mass, momentum, energy 3.Introduction to General Relativity 4.Einstein’s equivalence.

Physics 55 Friday, December 2, Quiz 7 (last quiz) 2.Relativistic mass, momentum, energy 3.Introduction to General Relativity 4.Einstein’s equivalence.
Postulates of Special Relativity The Relativity Postulate –The laws of physics are the same in every inertial reference frame The Speed of Light Postulate.

Postulates of Special Relativity The Relativity Postulate –The laws of physics are the same in every inertial reference frame The Speed of Light Postulate.
Chapter 18: Relativity and Black Holes

Chapter 18: Relativity and Black Holes
Stellar Deaths II Neutron Stars and Black Holes 17.

Stellar Deaths II Neutron Stars and Black Holes 17.
Black Holes. Outline Escape velocity Definition of a black hole Sizes of black holes Effects on space and time Tidal forces Making black holes Evaporation.

Black Holes. Outline Escape velocity Definition of a black hole Sizes of black holes Effects on space and time Tidal forces Making black holes Evaporation.
Ch 10 test study helper.

Ch 10 test study helper.
The Nature of the Universe The universe began 13.8 billion years ago with the “big bang”. At this moment in time, all of the matter and energy in the.

The Nature of the Universe The universe began 13.8 billion years ago with the “big bang”. At this moment in time, all of the matter and energy in the.
The Age of the Universe. The universe is expanding !!  The visible universe is made up of clusters of stars, held together in galaxies by their mutual.

The Age of the Universe. The universe is expanding !!  The visible universe is made up of clusters of stars, held together in galaxies by their mutual.
1 Special Relativity (Ch 37) Modern physics special relativity quantum mechanics Both were developed to explain the “few remaining puzzles” of classical.

1 Special Relativity (Ch 37) Modern physics special relativity quantum mechanics Both were developed to explain the “few remaining puzzles” of classical.
Black Holes Shannon Schmoll University of Washington Department of Astronomy.

Black Holes Shannon Schmoll University of Washington Department of Astronomy.
Interstellar Travel By: David Rodriguez Astro 5: Life in the Universe Winter 2008.

Interstellar Travel By: David Rodriguez Astro 5: Life in the Universe Winter 2008.
Question The pressure that prevents the gravitational collapse of white dwarfs is a result of ______.  A) Conservation of energy  B) Conservation of.

Question The pressure that prevents the gravitational collapse of white dwarfs is a result of ______.  A) Conservation of energy  B) Conservation of.
Kinematics, Momentum and Energy BU Photon Outreach December 14, 2010.

Kinematics, Momentum and Energy BU Photon Outreach December 14, 2010.
Special Theory of Relativity

Special Theory of Relativity
How to facilitate contact? Recall the dilemma: direct physical contact with ET or more indirect radio communication.

How to facilitate contact? Recall the dilemma: direct physical contact with ET or more indirect radio communication.
Black Holes.

Black Holes.
Www.ag-physics.org 1 The Origin of Gravity ≡ General Relativity without Einstein ≡ München 2009 by Albrecht Giese, Hamburg The Origin of Gravity 1.

1 The Origin of Gravity ≡ General Relativity without Einstein ≡ München 2009 by Albrecht Giese, Hamburg The Origin of Gravity 1.

Similar presentations

Ads by Google