Ciepło właściwe i ciepło atomowe chondrytu Jezersko

Szurgot, Marian A.

doi:10.7306/2020.1

Artykuł - szczegóły

Tytuł artykułu

Ciepło właściwe i ciepło atomowe chondrytu Jezersko

Autorzy

Szurgot Marian A.

Treść / Zawartość

Pełne teksty:

Szurgot_M_Cieplo_PG_Vol.68_nr 1_2020.pdf

Pobierz

Identyfikatory

DOI

10.7306/2020.1

Warianty tytułu

Specific heat and atomic heat of the Jezersko chondrite

Języki publikacji

Abstrakty

Specific heat capacity of the Jezersko chondrite (H4, S2/3, W2) was predicted by a relationship between bulk density and heat capacity of meteorites Cp(d_bulk). It was calculated that Cp(d_bulk) is equal to 703±15 J/(kgK) at 300 K, and 529±15 J/(kgK) at 200 K. Its volumetric heat capacity is equal to 1.8±0.1 MJ/(m³K) at 200 K, and 2.3±0.1 MJ/(m³K) at 300 K, which is close to the room temperature value characteristic of stony meteorites (2.5 MJ/(m³K). The atomic heat of the Jezersko meteorite is 13.1±0.4J/(molK) at 200K and 17.4±0.4 J/(molK) at 300K. It was shown that mean atomic weight enables predicting room temperature values of specific heat capacity of ordinary chondrites, and the common mean atomic heat of ordinary chondrites is equal to 17.5±0.6 J/(molK) at 300 K.

Słowa kluczowe

chondryt Jezersko zwykłe chondryty ciepło właściwe ciepło atomowe

Jezersko chondrite ordinary chondrites specific heat atomic heat

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Przegląd Geologiczny

Rocznik

2020

Tom

Vol. 68, nr 1

Strony

54--59

Opis fizyczny

Bibliogr. 38 poz., tab.

Twórcy

autor

Szurgot Marian A.

mszurgot@p.lodz.pl

Centrum Nauczania Matematyki i Fizyki Politechniki Łódzkiej, al. Politechniki 11, 90-924 Łódź

Bibliografia

1. ALEXEYEVA K. 1958 - Physical properties of stony meteorites and their interpretation based on the hypothesis on the origin of meteorites. Meteoritika, 16: 67-77.
2. BEECH M., COULSON I.M., NIE W., MCCAUSLAND P. 2009 - The thermal and physical characteristics of the Gao-Guenie (H5) meteorite. Planet. Space Sci., 57: 764-770.
3. CONSOLMAGNO G.J., SCHAEFER M.W., SCHAEFER B.E., BRITT D.T., MACKE R.J., NOLAN M.C., HOWELL E.S. 2013 - The measurement of meteorite heat capacity at low temperatures using liquid nitrogen vaporization. Planet. Space Sci., 87: 146-156.
4. ČERMÁK V., RYBACH L. 1982 - Thermal properties. [W:] Hellwege K.-H. (red.), Landolt- Bornstein numerical data and functional relationships in science and technology: New Series, Group V. Geophysics and Space Research, v. 1 Physical Properties of Rocks, Subvolume a: Springer-Verlag, Berlin, 305-371.
5. FLYNN G.J., CONSOLMAGNO G.J., BRITT D.T., BROWN P., MACKE R.J. 2018 - Physical properties of the stone meteorites: Implications for the properties of their parent bodies. Chemie der Erde, 78: 269-298.
6. GHOSH A., McSWEEN H.Y. 1999 - Temperature dependence of specific heat capacity and its effect on asteroid thermal models. Meteoritics & Planetary Science, 34: 121-127.
7. HENKE S., GAIL H.P., TRIELOFF M., SCHWARTZ W.H., KLEINE T. 2012 - Thermal history modeling of the H chondrite parent body. Astron. Astrophys., 545: A135.
8. HORAI K. 1971 - Thermal conductivity of rock-forming minerals. J. Geophys. Res., 76: 1278-1308.
9. https://www.asteroidmission.org/
10. https://en.wikipedia.org/wiki/OSIRIS-REx
11. http://www.hayabusa2.jaxa.jp/en/
12. https://en.wikipedia.org/wiki/NEAR_Shoemaker
13. https://en.wikipedia.org/wiki/Hayabusa
14. http://neo.ssa.esa.int/risk-page
15. https://www.esa.int/
16. https://satrevolution.com/mars/
17. https://www.nasa.gov/mission_pages/insight/overview/index.html
18. ŁUSZCZEK K., PRZYLIBSKI T.A. 2019 - Potential deposits of selected metallic resources on L chondrite parent bodies. Planet. Space Sci., 168: 40-51.
19. ŁUSZCZEK K., WACH R.A. 2014 - NWA 6255 meteorite - Thermophysical properties of interior and the crust. Meteorites, 3: 33-44.
20. MACKE R.J. 2010 - Survey of meteorite physical properties: density, porosity and magnetic susceptibility. Ph.D. Thesis, University of Central Florida, Orlando.
21. MACKE R.J., OPEIL C.P., CONSOLMAGNO G.J., BRITT D.T. 2016 - Ordinary chondrites heat capacities below 350 K. Lunar and Planetary Science Conference 47th, Abstract: 1221.
22. MACKE R.J., OPEIL C.P., CONSOLMAGNO G.J. 2019 - Heat capacities of ordinary chondrite falls below 300 K. Meteorit. Planet. Sci., 54: 2729-2743.
23. MATSUI T., OSAKO M. 1979 - Thermal property measurement of Yamato meteorites. Memoirs of National Institute of Polar Research, Sp. issue, 15: 243-252.
24. MAJ S. 1998 - Phonon thermal conductivity ofgeomaterials: Relationship to the density and mean atomic weight. Acta Geoph. Polon., 46: 415-425.
25. MILER M., AMBROŽIČ B., MITRIČ B., GOSAR M., ŠTURM S., DOLENEC M., JERŠEK M. 2014 - Mineral and chemical composition of the Jezersko meteorite - a new chondrite from Slovenia. Meteorit. Planet. Sci., 49: 1875-1887.
26. OPEIL C.P., CONSOLMAGNO G.J., SAFARIK D.J., BRITT D.T. 2012 - Stony meteorite thermal properties and their relationship to meteorite chemical and physical states. Meteorit. Planet. Sci., 47: 319-329.
27. OSTROWSKI D., BRYSON K. 2019 - The physical properties of meteorites. Planet. Space Sci., 165: 148-178.
28. PRZYLIBSKI T.A. 2016 - Chondryt Sołtmany. Acta Soc. Metheorit. Polon., 7: 93-122.
29. ROBIE R. A., HEMINGWAY B. S., FISHER J. R. 1978 - Thermodynamic properties of minerals and related substances at 298.15 K and 1 bar (105 Pascals) pressure and at higher temperatures. U.S. Geol. Survey Bull. 1259: 456.
30. SZURGOT M. 2011 - On the specific heat capacity and thermal capacity of meteorites. Lunar and Planetary Science Conference XXXXII, #1150.pdf, LPI Contribution No. 1608: 1150.
31. SZURGOT M. 2015a - Średni ciężar atomowy chondrytu Sołtmany, chondrytów L6 i minerałów pozaziemskich. Acta Soc. Metheorit. Polon., 6: 107-128.
32. SZURGOT M. 2015b - Mean atomic weight of Pułtusk meteorite and H chondrites. Meteorit. Planet. Sci., 50(S1): #5013.pdf.
33. SZURGOT M. 2019 - Średni ciężar atomowy i gęstość ziaren chondrytu Jezersko (H4). Acta Soc. Metheorit. Polon., 10: 140-159.
34. SZURGOT M., WACH R.A, PRZYLIBSKI T.A. 2012 - Thermophysical properties of the Sołtmany meteorite. Meteorites, 2, 53-65.
35. WAPLES D. W., WAPLES J. S. 2004 - A Review and Evaluation of Specific Heat Capacities of Rocks, Minerals, and Subsurface Fluids. Part 1: Minerals and Nonporous Rocks. Natural Resour. Res., 13 (2): 123-130.
36. WILKISON S.L., ROBINSON M.S. 2000 - Bulk density of ordinary chondrite meteorites and implications for asteroidal internal structure. Meteorit. Planetary Sci., 35: 1203-1213.
37. WOOD J.A. 1963 - Physics and chemistry of meteorites. [W:] Kuiper G.P., Middlehurts B. (red.), The Moon Meteorites and Comets. The University of Chicago Press, Chicago, 337-401.
38. YOMOGIDA K., MATSUI T. 1983 - Physical properties of ordinary chondrites. J. Geoph. Res., 88: 9513-9533.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-e4b9e0f5-a9a6-4e0b-ba49-2739889a6577