- Autor(in)
- Referenz
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10 Fredlun, E., Ann. Physik 13 (1932) 802;
11 Dumond, J. W. M., and W. M. Richards, Jr., Rev. Sci. Inst. 6 (1935) 362.
12 Hughers, A. L., Rev. Sci. Inst. 8 (1937) 409.
13 Lockennitz, A. E., Rev. Sci. Inst. 9 (1938) 417.
14 Klumb, A., and H. Schwarz, Z. Physik 122 (1944) 418.
15 Wu, Y., in "Rarefied Gas Dynamics" Fourth International Symposium, Toronto, Canada, 1964. Edited by J. H. de Leuw, Academic Press. 1965.
1 Knudsen, M., Ann. Physik 31 (1910) 205;
2 Von Smoluchowski, M., Ann. Physik 35 (1911) 1000.
3 Wu, Y., Princeton University Department of Aerospace and Mechanical Sciences Report 718, 1965.
4 Angerer, E. V., Ann. Physik 41 (1913) 1.
5 Woodrow, J. W., Physic. Rev. 4 (1914) 491.
6 Shrader, J. E., and R. G. Sherwood, Physic. Rev. 12 (1918) 70.
7 Richardson, L. F., Proc. Phys. Soc. London 31 (1918) 270.
8 Riegger, H., Z. tech. Physik 1 (1920) 66.
9 Bruche, E., and W. Littwin, Z. Physik 52 (1928) 318.
Ann. Physik 14 (1932) 617;
Ann. Physik 30 (1937) 99.
Ann. Physik 32 (1910) 809;
Ann. Physik 33 (1910) 1435;
Ann. Physik 44 (1914) 525.
- Seitenbereich
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0321 - 0330
- Zusammenfsg.
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The theory of the Absolute Manometer of Knudsen has been developed rigorously according to the revised theory of thermal transpiration which has been established by WU recently. The present theory has been compared with Knudsen's and von Smoluchowski's theories for certain boundary conditions. This paper presents a generalized theory of the Absolute Manometer for any temperature ratios and arbitrary accomodation coefficients on the boundaries.
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- Forschungsartikel