Chapter 2: Energy at the Lunar Surface - Lunar and Planetary Institute

More documents

Recommendations

Info

References REFERENCES Allen, C. W., 1946. The spectrum of the corona at the eclipse of 1940 October 1. Monthly Notices Roy. Astron. Soc., 106: 137-150. Anders, E., 1971. Meteorites and the early solar system. Ann. Rev. Astron. Astrophys., 9: 1-34. Anders, E., Ganapathy, R., Keays, R. R., Laul, J. C. and Morgan, J. W., 1971. Volatile and siderophile elements in lunar rocks: Comparison with terrestrial and meteoritic basalts. Proc. Second Lunar Sci. Conf., Suppl. 2, Geochim. Cosmochim. Acta, 2: 1021-1036. Anders, E., Ganapathy, R., Krahenbuhl, U. and Morgan, J. W., 1973. Meteoritic material on the moon. The Moon, 8: 3-24. Arnold, J. R., 1965. The origin of meteorites as small bodies. 11. Astrophys. Jour., 141: 1536-1547. Bandermann, L. W., 1969. Interplanetary dust. In: H. Ogelman and J. R. Wayland (Editors), High Energy Astrophysics, NASA SP-199, 137-165. Bandermann, L. W. and Singer, S. F., 1969. Interplanetary dust measurements near the earth. Rev. Geophys., 7: 759-797. Barker, J. L., and Anders, E., 1968. Accretion rate of cosmic matter from iridium and osmium content of deep-sea sediments. Geochim. Cosmochim. Acta, 32: 627-645. Berg, 0. E. and Gerloff, U., 1970. Orbital elements of micrometeorites derived from Pioneer 8 measurements. Jour. Geophys. Res., 75: 6932-6939. Berg, 0. E. and Richardson, F. F., 1971. New and supplementary data from the pioneer cosmic dust experiments (abstract). 14th Plenary Meeting of COSPAR, Seattle, Washington. Bloch, M. R., Fechtig, H., Gentner, W., Neukum, G. and Schneider, E., 1971. Meteorite impact craters, crater simulations, and the meteoroid flux in the early solar system. Proc. Second Lunar Sci. Conf., Suppl. 2, Geochim. Cosmochim. Acta, 3: 2639-2652. Bohlin, J. D., 1971. Photometry of the outer solar corona from lunar-based observations. Solar Physics, 18: 450-457. Brown, H., 1960. Density and Miss distribution of meteorites. Jour. Geophys. Res., 75: 1679-1683. Carter, J. L., Taylor, H. C. and Padovani, E., 1973. Morphology and chemistry of particles from Apollo 17 soils 74220, 74241, 75081. EOS, 54: 582-584. Chao, E. C. T., Borman, J. A., Minkin, J. A., James, 0 . B. and Desborough, G. A., 1970. Lunar glasses of impact origin: Physical and chemical characteristics and geologic implications. Jour. Geophys. Res., 75: 7445-7479. Cour-Palais, B. G ., 1969. Meteoroid environment model- 1969 (near earth to lunar surface). NASA SP-8013, 30 pp. / Cour-Palais, B. G., Zook, H. A. and Flaherty, R. E., 1971. Meteoroid activity on the lunar surface from the Surveyor 111 sample examination. 14th Plenary Meeting of COSPAR, Seattle, Washington. Criswell, D. R., 1972. Lunar dust motion. Proc. Third Lunar Sci. Conf., Suppl. 3, Geochim. Cosmochim. Acta, 3: 2671-2680. Criswell, a. R., Lindsay, J. F. and Reasoner, D. L., 1975. Seismic and acoustic emissions of a booming dune. Jour. Geophys. Res., 80: 4963-4974. ,I , Dalton, C. D., 1969. Determination of meteoroid environments from photographic meteor data. NASA TR R-322,134 pp. L \ Dohnanyi, J. W., 1970. On the origin and distribution of meteoroids. Jour. Geophys. Res., 75: 3468-3493. Dohnanyi, J. W., 1971. Flux of micrometeoroids: Lunar sample analyses compared with flux models. Science, 1 73: 5 58. Dohnanyi, J. W., 1972. Interplanetary objects in review: statistics of their masses and dynamics. Icarus, 1 7: 148. Duennebier, F. and Sutton, G. H., 1974. Thermal moonqhakes. Jour. Geophys. Res., 79: 43514363. Erickson, J. E., 1968. Velocity distribution of sporadic photographic meteors. Jour. Geophys. Res., 73: 3721-3726.
REFERENCES N. H and Ferry, G. W., 1971. Cosmic dust in the mesophere. 14th Plenary Meeting of COSPAR, Seattle, Washington. Fechtig, H., 1971. Cosmic dust in the atmosphere and in the interplanetary space at 1 A.U. today and in the early solar system. In: C. L. Hemenway, P. M. Milman and A. F. Cook (Editors), ~~~j~tionary and Physical Problems ofMeteoroids. NASA SP-319, 209-222. Ganapathy, R., Keays, R. R. and Anders, E., 1970a. Apollo 12 lunar samples: Trace element analysis of a core and the uniformity of the regolith. Science, 1 70: 5 3 3-5 3 5. thy, R., Keays, R. R., Laul, J. C. and Anders, E., 1970b. Trace elements in Apollo 11 lunar rocks: Implications for meteorite flux and origin of moon. Proc. Apollo 11 Lunar Sci. Conf., suppl. 1, Geochim. Cosmochim. Acta, 1: 1117-1142. G ~ p w., ~ 1972. ~ , The chemical composition and structure of the moon. The Moon, 5 : 121-148. ~ ~ ~ D. lE., t 1970. , Saturation and equilibrium conditions for impact cratering on the lunar surface: Criteria and implications. Radio Sci., 5: 273-291. ~ ~ ~ D. lE., t H'drz, , F. and Hartung, J., 1972. Effects of microcratering on the lunar surface. Proc. Third Lunar Sci. Conf., Suppl. 3, Geochim. Cosmochim. Acta, 3: 2713-2734. Gault, D. E., H'drz, F., Brownlee, D. E. and Hartung, J. B., 1974. Mixing of the lunar regolith. Proc. Fifth Lunar Sci. Conf., Suppl. 5, Geochim. Cosmochim. Acta, 3: 2365-2386. ~ ~ lT., d 1955. , The lunar surface. Monthly Nut. Roy. Astron. Soc., 115: 585-604. ~ ~ lT., d 1962. , Processes on the Lunar Surface. In: Z. Kopal and Z. Michailov (Editors), Proc. I.A.U., Pulkovo Meeting. ~ ~ lT., d 1966. , The Moon's Surface. In: W. H. Hess, D. H. Menzel and J. A. O'Keefe (Editors), Proc. I.A. U. Pulkovo Meeting. Green, J., 1971. Copernicus as a lunar caldera. Jour. Geophys. Res., 76: 57 19-573 1. Hanappe, F., Vosters, M., Picciotto, E. and Deutsch, S., 1968. Chimie des neiges Antarctiques et faux de deposition de matiere extraterrestre-deuxieme article. Eavth Planet. Sci. Lett., 4: 487-496. Hartmann, W. K., 1965. Terrestrial and lunar flux of large meteorites in the last two billion years. Icarus, 4: 157-165. Hartmann, W. K., 1966. Early lunar cratering. Icarus, 5: 406-418. Hartmann, W. K., 1970. Preliminary note on lunar cratering rates and absolute time-scales. Icarus, 12: 131-133. Hartung, J. B., Hiirz, F. and Gault, D. E., 1971. Lunar rocks as meteoroid detectors. In: C. L. Hemenway, P. M. Milman and A. F. Cook (Editors), Evolutionary and Physical Problems of Meteoroids, NASA SP-3 19, 227-2 37. Hartung, J. B., Hijrz, F. and Gault, D. E., 1972. Lunar microcraters and interplanetary dust. Proc. Third Lunar Sci. Conf., Suppl. 3, Geochinz. Cosnzochinz. Acta, 3: 2735-2753. Hartung, J. B. and Stgrzer, D., 1974. Lunar microcraters and their solar flare track record. Proc. Fifth Lunar Sci. Conf., Suppl. 5, Geochim. Cosmochim. Acta, 3: 2527-2541. Hawkins, G. S., 1963. Impacts on the earth and moon. Nature, 197: 781. Hawkins, G. S. and Southworth, R. B., 1961. Orbital elements of meteors. Smithson. Contrib. Astrophys., 4: 85-95. Heffner, 1965. Levitation of dust on the surface of the moon. N. 66-161 71, 'Min~z. Univ. Rept. TYCHO Meeting. Hinners, N. W., 1971. The new moon; a view. Rev. Geophys. Space Phys., 9: 447-522. H'drz, F., Brownlee, D. E., Fechtig, H., Hartung, J. B., Morrison, D. A., Neukum, G., Schneider, E., Vedder, J. F. and Gault, D. E., 1975. Lunar microcraters, implications for the micrometeoroid complex. Planet. Space Sci., 23: 15 1-172. Hijrz, F., Hartung, J. B., and Gault, D. E., 1971. Micrometeorite craters on lunar rock surfaces. Jour. Geophys. Res., 76: 5770-5798. Humes, D. H., Alvarez, J. M., Kinard, W. H. and O'Neal, R. L., 1975. Pioneer 11 meteoroid detection experiment: Preliminary results. Science, 188: 473-474. Jacchia, L. G., 1963. Meteors, meteorites and comets: Interrelationships. In: B. M. Middlehurst and G. P. Kuipers (Editors), Moon, Meteon'tes and Comets, 774-798. Jacchia, L. G., and Whipple, F. L., 1961. Precision orbits of 413 photographic meteors. Smithson. Contrib. Astrophys., 4: 97-129.
Page 1 and 2: CHAPTER 2 Energy at the Lunar Surfa
Page 3 and 4: DISTRIBUTION OF METEOROIDS Heliocen
Page 5 and 6: MEASURING THE METEOROID FLUX Measur
Page 7 and 8: MEASURING THE METEOROID FLUX suffic
Page 9 and 10: MASS-FREQUENCY DISTRIBUTION observa
Page 11 and 12: MASS-FREQUENCY DISTRIBUTION experim
Page 13 and 14: PHYSICAL PROPERTIES Escape Velociti
Page 15 and 16: PHYSICAL PROPERTIES he ratio a/b is
Page 17 and 18: PHYSICAL PROPERTIES r Meteorites I
Page 19 and 20: PHYSICAL PROPERTIES 37 requires pro
Page 21 and 22: HISTORY OF METEOROID FLUX History o
Page 23 and 24: METEOROID ENERGY Solar Flare Track
Page 25 and 26: SOLAR ENERGY 43 radiant energy flux
Page 27 and 28: GRAVITATIONAL ENERGY Fig. 2.16. Enl
Page 29 and 30: GRAVITATIONAL ENERGY Fig. 2.19. Bou
Page 31 and 32: GRAVITATIONAL ENERGY similarly the
Page 33 and 34: GRAVITATIONAL ENERGY Fig. 2.24. Soi
Page 35 and 36: GRAVITATIONAL ENERGY of seismic eve
Page 37 and 38: INTERNAL ENERGY 55 rate proportiona
Page 39 and 40: OTHER ENERGY SOURCES Fig. 2.28. A g
Page 41: CONCLUDING REMARKS \ Apollo Orbit I
Page 45 and 46: REFERENCES Mc~onnell, J. A. M., Fla

Chapter 2: Energy at the Lunar Surface - Lunar and Planetary Institute

Create successful ePaper yourself

Delete template?

Save as template?