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Title:	The importance of experiments: Constraints on chondrule formation models
Source:	Meteoritics & Planetary Science [1086-9379] DESCH, Steven yr:2012

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description	1.	Johansen, A. "Growth of asteroids, planetary embryos, and Kuiper belt objects by chondrule accretion." Science advances 1.3 (2015).
description	2.	Ebel, Conel M. O'D S. "Questions, questions: Can the contradictions between the petrologic, isotopic, thermodynamic, and astrophysical constraints on chondrule formation be resolved?" Meteoritics & planetary science 47.7 (2012): 1157-1175.
description	3.	Jacquet, E. "On the aerodynamic redistribution of chondrite components in protoplanetary disks." Icarus 220.1 (2012): 162-173.
description	4.	Rubin, Alan E. "Petrologic, geochemical and experimental constraints on models of chondrule formation." Earth-science reviews 50.1-2 (2000): 3-27.
description	5.	Rubin, Alan E. "Chondrules in the Murray CM2 meteorite and compositional differences between CM-CO and ordinary chondrite chondrules." Geochimica et cosmochimica acta 50.2 (1986): 307-315.
description	6.	Entradas, M. "What is the public's role in 'space' policymaking? Images of the public by practitioners of 'space' communication in the United Kingdom." Public understanding of science 25.5 (2015): 603-611.
description	7.	Lambrechts, A. "The structure of protoplanetary discs around evolving young stars." Astronomy and astrophysics 575.2 (2015): 487-495.
description	8.	Lithwick, Y. "Adding particle collisions to the formation of asteroids and Kuiper belt objects via streaming instabilities." Astronomy and astrophysics 537 (2012).
description	9.	Amelin, Y. "U–Pb chronology of the Solar System's oldest solids with variable 238U/ 235U." Earth and planetary science letters 300.3 (2010): 343-350.
description	10.	Weisberg, M. "A new metal-rich chondrite grouplet." Meteoritics 36.3 (2001): 401-418.
description	11.	Webber, J. Beau W. W. "Studies of nano-structured liquids in confined geometries and at surfaces." Progress in Nuclear Magnetic Resonance Spectroscopy 56.1 (2010): 78-93.
description	12.	Zanda, B. Earth and planetary science letters 224.1-2 (2004): 1-17.
description	13.	Benz, W. "Low Velocity Collisions and the Growth of Planetesimals." Space science reviews 92.1 (2000): 279-294.
description	14.	Hewins, Roger H. Annual Review of Earth and Planetary Sciences 25.1 (1997): 61-83.
description	15.	"Using the density of Kuiper Belt Objects to constrain their composition and formation history." Icarus. 326: 10-17.
description	16.	Wasson, John N. "Evidence for primitive nebular components in chondrules from the Chainpur chondrite." Geochimica et cosmochimica acta 46.6 (1982): 1081-1099.
description	17.	Land Zandstra, J. L. A. M. "Citizen science on a smartphone: Participants' motivations and learning." Public understanding of science 25.1 (2015): 45-60.
description	18.	Salas, E. "Teams in Space Exploration: A New Frontier for the Science of Team Effectiveness." Current directions in psychological science 24.3 (2015): 200-207.
description	19.	Meru, F. "Growth and fragmentation of centimetre-sized dust aggregates: the dependence on aggregate size and porosity." Monthly notices of the Royal Astronomical Society 435.3 (2013): 2371-2390.
description	20.	Weiss, Lauren M. "THE MASS-RADIUS RELATION FOR 65 EXOPLANETS SMALLER THAN 4 EARTH RADII." The Astrophysical Journal Letters 783.1 (2014).