Hostname: page-component-8448b6f56d-dnltx Total loading time: 0 Render date: 2024-04-19T08:45:33.626Z Has data issue: false hasContentIssue false
  • English
  • Français

72. Some problems of meteor astronomy: Introductory Lecture

Published online by Cambridge University Press:  14 August 2015

F. L. Whipple
F. L. Whipple*
Affiliation:
Harvard College Observatory, Cambridge, Mass., U.S.A.

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

We are now in an era of remarkable progress in the study of meteors. The electronic techniques developed at Jodrell Bank by Lovell, Clegg and others, and now by Davies, have culminated in giving us the power to observe the equivalent of 8th or 9th magnitude meteors for velocities, radiants and orbits. And certainly the limit has not yet been reached. The Harvard Super-Schmidt meteor cameras represent nearly the limit of current photographic-optical techniques; they approach close to the visual limit for very slow meteors, and with great precision, to 0·1 % in velocity and radiant.

Type
Part VI: Meteors and Planets
Information
Symposium - International Astronomical Union , Volume 4: Radio Astronomy , 1957 , pp. 375 - 389
Copyright
Copyright © Cambridge University Press 1957 

References

1. McKinley, D. W. R. Ap. J. 113, 225, 1951.CrossRefGoogle Scholar
2. Newton, H. A. Am. J. Sci. 36, 1, 1888.Google Scholar
3. Wylie, C. C. Private communication, 1954.Google Scholar
4. Whipple, F. L. and Hughes, R. F. J. Atmos. Terr. Phys. ‘Special Supplement’ , Pergamon Press, Ltd. 1955.Google Scholar
5. Whipple, F. L. A.J. 59, 201, 1954.Google Scholar
6. Hawkins, G. S. , , 1952.Google Scholar
7. Almond, M., Davies, J. G. and Lovell, A. C. B. M.N. R.A.S. 113, 411, 1953.Google Scholar
8. Almond, M. M.N. R.A.S. 111, 37, 1951.Google Scholar
9. Hoffmeister, C. Meteorströme , Sonneberg Obs., 1948.Google Scholar
10. Jacchia, L. G. Har. Col. Obs., Tech. Rep. no. 10, 1952.Google Scholar
11. Millman, P. M. J. R.A.S. Can. 44, 209, 1950.Google Scholar
12. Millman, P. M. Nature , 172, 853, 1953.Google Scholar
13. Liller, W. and Whipple, F. L. Rocket Exploration of the Upper Atmosphere , ed. Boyd, and Seaton, , Pergamon Press, London, 1954, pp. 112130.Google Scholar
14. Lovell, A. C. B. and Clegg, J. A. Proc. Phys. Soc. 60, 491, 1948.CrossRefGoogle Scholar
15. Herlofson, N. Rep. Phys. Soc. Progr. Phys. 11, 444, 1947.Google Scholar
16. Kaiser, T. and Closs, R. L. Phil. Mag. 43, 1, 1952.Google Scholar
17. Greenhow, J. S. and Hawkins, G. S. Nature , 170, 355, 1952.Google Scholar
18. Whipple, F. L. A.J. 57, 28 (abstract), 1952.Google Scholar
19. Jacchia, L. G. Ap. J. 121, 521, 1955.CrossRefGoogle Scholar
20. Öpik, E. J. Atmos. Terr. Phys. ‘Special Supplement’, Pergamon Press, Ltd., 1955.Google Scholar
21. Hulst, H. C. van de. Ap. J. 105, 471, 1947.Google Scholar
22. Watson, F. G. Between the Planets , The Blakiston Co., Philadelphia, 1941.Google Scholar
23. Whipple, F. L. Ap. J. 121, 750, 1955 b. Google Scholar
24. Poulter, T. C. Meteor Observations in the Antarctic Byrd Expedition II, 1933–35 , Stamford Res. Inst., California, 1955.Google Scholar
25. Weiss, A. A. Aust. J. Phys. 8, 148, 1955.Google Scholar
26. McCrosky, R. E. , , 1955.Google Scholar
27. Whipple, F. L. Ap. J. 121, 241, 1955 a. Google Scholar
28. Bowen, E. G. Aust. J. Phys. 6, 490, 1953.Google Scholar
29. Millman, P. M. J. R.A.S. Can. 48, 226, 1954.Google Scholar
30. Davies, J. G. These symposium proceedings, Paper 73, p. 390.Google Scholar
31. Bowen, E. G. Private communication, 1955.Google Scholar
32. Allen, C. W. M.N. R.A.S. 106, 137, 1946.Google Scholar
33. Bumba, V. Bull. Astr. Inst. Czech. 6, 1, 1955.Google Scholar
34. Robertson, H. P. M.N. R.A.S. 97, 423, 1937.Google Scholar