Rockets : Two Classic Papers

Format:

Book

Author/Creator:

Goddard, Robert.

Contributor:

Goddard, Robert Hutchings, 1882-1945.

Series:

Dover Books on Aeronautical Engineering

Language:

English

Subjects (All):

Rocketry.

Rockets (Aeronautics).

Upper atmosphere--Rocket observations.

Upper atmosphere.

Liquid propellant rockets.

Physical Description:

1 online resource (162 p.)

Edition:

1st ed.

Place of Publication:

Newburyport : Dover Publications, 2012.

Summary:

Rockets, in the primitive form of fireworks, have existed since the Chinese invented them around the thirteenth century. But it was the work of American Robert Hutchings Goddard (1882-1945) and his development of liquid-fueled rockets that first produced a controlled rocket flight. Fascinated by rocketry since boyhood, Goddard designed, built, and launched the world's first liquid-fueled rocket in 1926. Ridiculed by the press for suggesting that rockets could be flown to the moon, he continued his experiments, supported partly by the Smithsonian Institution and defended by Charles Lindbergh. T

Contents:

Title Page; Copyright Page; PREFACE; Table of Contents; FOREWORD; A METHOD OF REACHING EXTREME ALTITUDES; PREFACE; A METHOD OF REACHING EXTREME ALTITUDES; A METHOD OF REACHING EXTREME ALTITUDES; PART I. THEORY; METHOD TO BE EMPLOYED; STATEMENT OF THE PROBLEM; REDUCTION OF EQUATION TO THE SIMPLEST FORM; RIGOROUS SOLUTION FOR MINIMUM M AT PRESENT IMPOSSIBLE; SOLUTION OF THE MINIMUM PROBLEM BY AN APPROXIMATE METHOD; PART II. EXPERIMENTS; EFFICIENCY OF ORDINARY ROCKET; EXPERIMENTS IN AIR WITH SMALL STEEL CHAMBERS; EXPERIMENTS WITH LARGE CHAMBER; EXPERIMENTS IN VACUO; DISCUSSION OF RESULTS

DISCUSSION OF POSSIBLE EXPLANATIONSCONCLUSIONS FROM EXPERIMENTS; SIGNIFICANCE OF THE ABOVE EXPERIMENTS AS REGARDS CONSTRUCTING A PRACTICAL APPARATUS; PART III. CALCULATIONS BASED ON THEORY AND EXPERIMENT; APPLICATION OF APPROXIMATE METHOD; VALUES OF THE QUANTITIES OCCURRING IN THE EQUATIONS; DIVISION OF THE ALTITUDE INTO INTERVALS; CALCULATION OF MINIMUM MASS FOR EACH INTERVAL; EXPLANATION OF TABLES V AND VI; CALCULATION OF MINIMUM MASS TO RAISE ONE POUND TO VARIOUS ALTITUDES IN THE ATMOSPHERE; CHECK ON APPROXIMATE METHOD OF CALCULATION; RECOVERY OF APPARATUS ON RETURN

APPLICATIONS TO DAILY OBSERVATIONSCALCULATION OF MINIMUM MASS REQUIRED TO RAISE ONE POUND TO AN "INFINITE" ALTITUDE; SUMMARY; CONCLUSION; APPENDIX A - THEORY OF THE MOTION WITH DIRECT LIFT; APPENDIX B - THEORY OF THE DISPLACEMENTS FOR SIMPLE HARMONIC MOTION; APPENDIX C - THEORY OF DIRECT-LIFT IMPULSE-METER; APPENDIX D - THEORY OF SPRING IMPULSE-METER; APPENDIX E - CHECK ON APPROXIMATE METHOD OF CALCULATION, FOR SMALL CHARGES FIRED IN RAPID SUCCESSION; APPENDIX F - PROOF THAT THE RETARDATION BETWEEN 500,000 FT. AND 1,000,000 FT. IS NEGLIGIBLE; APPENDIX G - PROBABILITY OF COLLISION WITH METEORS

NOTESLIQUID-PROPELLANT ROCKET DEVELOPMENT; LIQUID-PROPELLANT ROCKET DEVELOPMENT; INTRODUCTION; THE ESTABLISHMENT IN NEW MEXICO; STATIC TESTS OF 1930-32; FLIGHTS DURING THE PERIOD 1930-32; RESUMPTION OF FLIGHTS IN NEW MEXICO; DEVELOPMENT OF STABILIZED FLIGHT; PENDULUM STABILIZER; GYROSCOPE STABILIZER; FURTHER DEVELOPMENT; CONCLUSION; A Biographical Note and Appreciation

Notes:

Description based upon print version of record.

Description based on publisher supplied metadata and other sources.

Related Work:

Goddard, Robert Hutchings, 1882-1945. Method of reaching extreme altitudes.

Goddard, Robert Hutchings, 1882-1945. Liquid-propellant rocket development.

ISBN:

9781523125012

1523125012

9780486174341

0486174344

OCLC:

900346245