Top

Journal of Science Education and Technology

Published in:

01-02-2014

A Classroom-Based Distributed Workflow Initiative for the Early Involvement of Undergraduate Students in Scientific Research

Author: Jon M. Friedrich

Published in: Journal of Science Education and Technology | Issue 1/2014

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Engaging freshman and sophomore students in meaningful scientific research is challenging because of their developing skill set and their necessary time commitments to regular classwork. A project called the Chondrule Analysis Project was initiated to engage first- and second-year students in an initial research experience and also accomplish several scientific objectives. Students take part in a classroom-based, distributed workflow project that aims to produce high-quality data on the physical dimensions of chondrules, mm-sized spherules contained in primitive meteorites called chondrites. Such data are needed to test astrophysical models for processes acting in the early solar system. Student investigators process X-ray microtomography data with resources contained on portable USB flash drives distributed to them. Students are exposed to data collection, data quality evaluation, interpretation, and presentation of their results. Herein, an introduction to the scientific objectives is given along with an evolutionary history of the project. A description of the current implementation of the course is presented, and future directions are discussed. Anonymous student evaluations of the course are used to demonstrate the educational and engaging nature of the project. Finally, we reflect on the possible benefits of such a project for first- and second-year students within STEM disciplines.

previous article Supporting Knowledge Integration in Chemistry with a Visualization-Enhanced Inquiry Unit

next article Question Asking in the Science Classroom: Teacher Attitudes and Practices

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Be a Martian (2012) http://beamartian.jpl.nasa.gov/welcome. Accessed 16 Oct 2012

Brearley AJ, Jones RH (1998) Chondritic meteorites. In: Papike JJ (ed) Planetary materials. Mineralogical Society of America, Washington, pp 3-1–3-398)

Citizen Science Alliance (2012) www.citizensciencealliance.org. Accessed 16 Oct 2012

Cuzzi JN, Weidenschilling SJ (2006) Particle–gas dynamics and primary accretion. In: Lauretta D, McSween H (eds) Meteorites and the early solar system II. University of Arizona Press, Tucson, pp 353–382

Cuzzi JN, Hogan RC, Paque JM (1999) Chondrule size-density distributions: predictions of turbulent concentration and comparison with chondrules disaggregated from L4 ALH85033. 30th Lunar and Planetary Science Conference #1274 (abstract)

Cuzzi JN, Hogan RC, Paque JM, Dobrovolskis AR (2001) Size selective concentration of chondrules and other small particles in protoplanetary nebula turbulence. Astrophys J 546:496–508CrossRef

Ebel DS, Rivers ML (2007) Meteorite 3-dimensional synchrotron microtomography: methods and applications. Meteorit Planet Sci 42:1627–1646CrossRef

Eisenhour DD (1996) Determining chondrule size distributions from thin-section measurements. Meteorit Planet Sci 31:243–248CrossRef

Elangovan P, Hezel DC, Howard L, Armstrong R, Abel RL (2012) PhaseQuant: a tool for quantifying tomographic data sets of geological specimens. Comput Geosci 48:323–329CrossRef

fightAIDS@home (2012) http://fightaidsathome.scripps.edu. Accessed 16 Oct 2012

Friedrich JM, Wignarajah DP, Chaudhary S, Rivers ML, Nehru CE, Ebel DS (2008) Three-dimensional petrography of metal phases in equilibrated L chondrites—effects of shock loading and dynamic compaction. Earth Planet Sci Lett 275:172–180CrossRef

Friedrich JM, Rivers ML, Perlowitz MA, Meinhart Z, Ramirez VV (2012) Characterization of particle size standard NIST 1019b by synchrotron X-ray microtomography and digital data extraction. Part Part Syst Charact 29:35–42CrossRef

Gooding JL, Keil K, Healy JT (1978) Physical properties of individual chondrules from ordinary chondrites. Meteoritics 13:476–477

Griffin LD, Elangovan P, Mundell A, Hezel DC (2012) Improved segmentation of meteorite micro-CT images using local histograms. Comput Geosci 39:129–134CrossRef

Hewins RH, Jones RH, Scott ERD (1996) Chondrules and the protoplanetary disk. Cambridge University Press, Cambridge

Hughes DW (1978) A disaggregation and thin section analysis of the size and mass distribution of the chondrules in the Bjurböle and Chainpur meteorites. Earth Planet Sci Lett 38:391–400CrossRef

Hughes DW (1980) The dependence of chondrule density on chondrule size. Earth Planet Sci Lett 38:391–400CrossRef

Kanefsky B, Barlow NG, Gulick VC (2001) Can distributed volunteers accomplish massive data analysis tasks? Lunar and Planetary Science Conference #1272 (abstract)

Ketcham RA (2005) Computational methods for quantitative analysis of three-dimensional features in geological specimens. Geosphere 1:32–41CrossRef

King TVV, King EA (1979) Size frequency distributions of fluid drop chondrules in ordinary chondrites. Meteoritics 14:91–96

Kinkel DH, Henke SE (2006) Impact of undergraduate research on academic performance, educational planning, and career development. J Nat Resour Life Sci Educ 35:194–201

Kuebler K, McSween HY, Carlson WD, Hirsch D (1999) Sizes and masses of chondrules and metal-troilite grains in ordinary chondrites: possible implications for nebular sorting. Icarus 141:96–106CrossRef

Martin PM, Hughes DW (1980) Meteoritic chondrules and the Weibull function. Earth Planet Sci Lett 49:175–180CrossRef

Miyamoto K (1994) Particle number and sizes estimated from sections—a history of stereology. In: Takai R (ed) Research of pattern formation. KTK Scientific Publishers, Tokyo, pp 507–516

Nelson VE, Rubin AE (2002) Size-frequency distributions of chondrules and chondrule fragments in LL3 chondrites: implications for parent-body fragmentation of chondrules. Meteorit Planet Sci 37:1361–1376CrossRef

Paque JM, Cuzzi JN (1997) Physical characteristics of chondrules and rims, and aerodynamic sorting in the solar nebula. 28th Lunar and Planetary Science Conference #1189 (abstract)

Rubin AE (1989) Size-frequency distributions of chondrules in CO3 chondrites. Meteoritics 24:179–189CrossRef

Rubin AE, Grossman JN (1987) Size-frequency-distributions of EH3 chondrules. Meteoritics 22:237–251

Russell SH, Hancock MP, McCullough J (2007) The pipeline. Benefits of undergraduate research experiences. Science 316:548–549CrossRef

Schneider DM, Akridge DG, Sears DWG (1998) Size distribution of metal grains and chondrules in enstatite chondrites. Meteorit Planet Sci 33:A136–A137

SciStarter (2012) http://www.scistarter.com. Accessed 16 Oct 2012

SETI@home (2012) http://setiathome.berkeley.edu. Accessed 16 Oct 2012

Seymour E, Hewitt NM (1997) Talking about leaving: why undergraduates leave the sciences. Westview Press, Boulder

Sherman KM, Friedrich JM, Ebel DS, Rivers ML (2010) Methods for direct measurement of chondrule size, morphology and density. 41st Lunar and Planetary Science Conference #2313 (abstract)

Shu FH, Shang H, Lee T (1996) Toward an astrophysical theory of chondrites. Science 271:1545–1552CrossRef

Stakheev YuI, Barysknikova GU, Lavrukhina AK (1973) The dimensions of the nickel chondrules in the meteorites Saratov, Nikolskoe, Bjurböle, and Elenovka. Meteoritika 32:103–108

Stardust@home (2012) http://stardustathome.ssl.berkeley.edu. Accessed 16 Oct 2012

Thelen BA, Thiet RK (2008) Cultivating connection: incorporating meaningful citizen science into Cape Cod National Seashore’s estuarine research and monitoring programs. Park Sci 25:74–80

Tinto V (1993) Leaving college: rethinking the causes and cures of student attrition. The University of Chicago Press, Chicago

Trumbull DJ, Bonney R, Bascom D, Cabral A (2000) Thinking scientifically during participation in a citizen-science project. Sci Educ 84:265–275CrossRef

Westphal AJ, Butterworth AL, Snead CJ, Craig N, Anderson D, Jones SM, Brownlee DE, Farnsworth R, Zolensky ME (2005) Stardust@home: a massively distributed public search for interstellar dust in the stardust interstellar dust collector. 36th Lunar and Planetary Science Conference #1908 (abstract)

Westphal AJ, von Korff J, Anderson DP, Alexander A, Betts B, Brownlee DE, Butterworth AL, Craig N, Gainsforth Z, Mendez B, See T, Snead CJ, Srama R, Tsitrin S, Warren J, Zolensky M (2006) Stardust@home: virtual microscope validation and first results. 37th Lunar and Planetary Science Conference #2225 (abstract)

Title: A Classroom-Based Distributed Workflow Initiative for the Early Involvement of Undergraduate Students in Scientific Research
Author: Jon M. Friedrich
Publication date: 01-02-2014
Publisher: Springer Netherlands
Published in: Journal of Science Education and Technology / Issue 1/2014
Print ISSN: 1059-0145
Electronic ISSN: 1573-1839
DOI: https://doi.org/10.1007/s10956-013-9450-z

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 1/2014

Urban High School Students’ IT/STEM Learning: Findings from a Collaborative Inquiry- and Design-Based Afterschool Program

Enhancing Students’ Learning Process Through Self-Generated Tests

Question Asking in the Science Classroom: Teacher Attitudes and Practices

Evaluating a Contextual-Based Course on Data Analysis for the Physics Laboratory

Assessing Scientific Practices Using Machine-Learning Methods: How Closely Do They Match Clinical Interview Performance?

Measuring Student Attitude and Knowledge in Technology-Rich Biology Classrooms

Premium Partners