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Research Opportunities

Research opportunities exist with the mentorship of faculty.

Title	Offering	Standing	Credits	Credits	When	F	W	S	Description	Preparatory	Faculty	Days	Multiple Standings	Start Quarters	Open Quarters
Advanced Research in Environmental Studies with A. Biswas Abir Biswas ecology environmental studies field studies Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring			Abir Biswas		Junior JR Senior SR	Fall	Fall Winter Spring
Advanced Research in Environmental Studies with A. Styring Alison Styring ecology environmental studies field studies Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring			Alison Styring		Junior JR Senior SR	Fall	Fall Winter Spring
Advanced Research in Environmental Studies with C. LeRoy Carri LeRoy ecology environmental studies field studies Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring			Carri LeRoy		Junior JR Senior SR	Fall	Fall Winter Spring
Advanced Research in Environmental Studies with D. Fischer Dylan Fischer ecology environmental studies field studies Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring		plant ecology and physiology, field ecology, restoration ecology	Dylan Fischer		Junior JR Senior SR	Fall	Fall Winter Spring
Advanced Research in Environmental Studies with E. Thuesen Erik Thuesen marine science zoology Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring			Erik Thuesen		Junior JR Senior SR	Fall	Fall Winter Spring
Advanced Research in Environmental Studies with P. Yu Pauline Yu environmental studies marine science zoology Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Environmental Studies. This independent learning opportunity is designed to allow advanced students to delve into real-world research with faculty who are currently engaged in specific projects. The program will help students develop vital skills in research design, data acquisition and interpretation, written and oral communication, collaboration, and critical thinking skills—all of which are of particular value for students who are pursuing a graduate degree, as well as for graduates who are already in the job market. studies the developmental physiology and ecology of marine invertebrates. She is interested in the biochemistry of the seawater-organism interface, developmental nutritional biochemistry and metabolic depression, invasive species, carbonate chemistry (ocean acidification), and cultural relationships with foods from the sea. Students have the opportunity to collaboratively develop lines of inquiry for lab and/or field studies in ecology, developmental biology, physiology, marine carbonate chemistry and mariculture.		Pauline Yu		Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Projects in Critical and Creative Practices with A. de Marcken Anne de Marcken (Forbes) cultural studies environmental studies literature media arts media studies visual arts writing Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day, Evening and Weekend	F 15 Fall	W 16Winter	S 16Spring	This is an opportunity for students to work with faculty from a diverse set of disciplines on creative and scholarly projects. Students will come away with invaluable skills in library and archival research practices, visual arts studio practices, laboratory practices, film/media production practices, critical research and writing, and much more. Critical and Creative Practices is comprised of a diverse group of artists, theorists, scientists, mathematicians, writers, filmmakers and other cultural workers whose interdisciplinary fields of study sit at the crossroads between critical theoretical studies and creative engagement. uses creative writing and digital media as methods of narrative inquiry into questions of presence and absence, disappearance and emergence, loss, survival, and memory. Her process-based work results in short stories, personal essays, moving image narratives, sometimes web environments, and often hybrids of these forms. Her current areas of inquiry include climate change, the interactions of place and identity, and the experience of survival. She is presently working on a multimedia narrative installation and a feature film. Students working with Anne will have opportunities to work on one or both of these projects. Depending upon project phase at the time of enrollment as well as individual students’ strengths and interests, activities may include research, installation design and construction, text-based work, and/or audio-video post production.		Anne de Marcken (Forbes)		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Projects in Critical and Creative Practices with N. Lowe Naima Lowe African American studies art history communication cultural studies gender and women's studies media studies visual arts Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day, Evening and Weekend	F 15 Fall	W 16Winter	S 16Spring	This is an opportunity for students to work on faculty-driven scholarly and creative projects. By working with faculty in a studio and research “apprentice” model, students will gain hands-on experience in visual arts studio practices, film/media production practices, the creative writing workshop focused on craft, critical research and writing, library and archival research practices, and much more. (experimental media and performance art) creates films, videos, performances and written works that explore issues of race, gender, and embodiment. The majority of her work includes an archival research element that explores historical social relationships and mythic identities. She is currently working on a series of short films and performances that explore racial identity in rural settings. Students working with Naima would have opportunities to learn media production and post-production skills (including storyboarding, scripting, 16mm and HD video shooting, location scouting, audio recording, audio/video editing, etc) through working with a small crew comprised of students and professional artists. Students would also have opportunities to do archival and historical research on African-Americans living in rural settings, and on literature, film and visual art that deals with similar themes. Students are generally best equipped for this option if they have taken at least one full year of studies in Media or Visual Arts in a program such as MediaWorks, NonFiction Media, or its equivalent.		Naima Lowe		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Projects in Critical and Creative Practices with Shaw Osha Shaw Osha (Flores) aesthetics art history visual arts Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	This is an opportunity for students to work on faculty-driven scholarly and creative projects. By working with faculty in a studio and research “apprentice” model, students will gain hands-on experience in visual arts studio practices, film/media production practices, the creative writing workshop focused on craft, critical research and writing, library and archival research practices, and much more. (visual art) works in painting, photography, drawing, writing and video. She explores issues of visual representation, affect as a desire, social relationships and the conditions that surround us. She is currently working on a project based on questions of soul in artwork. Students working with Shaw would have opportunities to learn about artistic research, critique, grant and statement writing, website design, studio work and concerns in contemporary art making.		Shaw Osha (Flores)		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research: Civic Intelligence Research and Action Laboratory (CIRAL) Douglas Schuler communication community studies computer science education field studies law and public policy media studies sociology sustainability studies Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	8	08	Evening and Weekend	F 15 Fall	W 16Winter	S 16Spring	Civic intelligence attempts to understand how "smart" a society is in addressing the issues it faces and to think about – and initiate – practices that improve this capacity. It is an interdisciplinary area of inquiry that includes the sciences – social and otherwise – as well as the humanities. Visual art, music, and stories, are as critical to the enterprise as the ability to analyze and theorize about social and environmental issues.This learning opportunity is designed to allow students of various knowledge and skill levels to work with a high level of autonomy on the design and implementation of real-world research and action projects. Students will collaborate via issue-oriented "clusters" with students, faculty, and others inside and beyond Evergreen. The program will help students develop important skills in organizational and workshop design, collaboration, analysis and interpretation, written and oral communication, critical thinking skills, and interpersonal skills. We also expect to focus on the development of online services, information, and tools, including civic engagement games and online deliberation.Although there are many ways to engage in this research, all work will directly or indirectly support the work of the Civic Intelligence Research and Action Laboratory (CIRAL). These opportunities will include working with the "Home Office." The home office work will focus on developing the capacities of the lab, including engaging in research, media work, or tech development that will support the community partnerships. Other work can include direct collaboration outside the classroom, often on an ongoing basis. We are also hoping to support students who are interested in the development of online support for civic intelligence, particularly CIRAL. This includes the development of ongoing projects such as e-Liberate, a web-based tool that supports online meetings using Roberts Rules of Order, and Activist Mirror, a civic engagement game, as well as the requirements gathering and development of new capabilities for information interchange and collaboration.		Douglas Schuler	Wed	Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Critical and Creative Practices with K. Eamon Kathleen Eamon aesthetics philosophy Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	0, 16	0 16	Day	F 15 Fall	W 16Winter	S 16Spring	This is an opportunity for students to work on faculty-driven scholarly and creative projects. By working with faculty in a studio and research “apprentice” model, students will gain hands-on experience in visual arts studio practices, film/media production practices, the creative writing workshop focused on craft, critical research and writing, library and archival research practices, and much more. (social and political philosophy, aesthetics, philosophy of art) has interests in German idealism (Kant and Hegel), historical materialism (Marx, 20 C Marxists, and critical theory), and psychoanalysis (Freud and Lacan). She is currently working on an unorthodox project about Kant and Freud, under the working title “States of Partial Undress: the Fantasy of Sociability.” Students working with Kathleen would have opportunities to join her in her inquiry, learn about and pursue research in the humanities, and critically respond to the project as it comes together. In addition to work in Kantian aesthetics and Freudian dream theory, the project will involve questions about futurity, individual wishes and fantasies, and the possibility of collective and progressive models of sociability and fantasy.		Kathleen Eamon		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Evolutionary Biology with B. Weinstein Bret Weinstein biology consciousness studies	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Research opportunities allow students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (evolutionary biology) works on a wide range of topics, from evolutionary ecology, to adaptive dynamics. Students have the opportunity to focus on the interaction between selection on genes and culture, especially in humans. This type of inquiry often involves questions of consciousness, and the interface between creatures and novel environments.		Bret Weinstein		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with A. Biswas Abir Biswas geology Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (geology, earth science) studies nutrient and toxic trace metal cycles in terrestrial and coastal ecosystems. Potential projects could include studies of mineral weathering, wildfires and mercury cycling in ecosystems. Students could pursue these interests at the laboratory scale or through field-scale biogeochemistry studies, taking advantage of the Evergreen Ecological Observation Network (EEON), a long-term ecological study area. Students with backgrounds in a combination of geology, biology or chemistry could gain skills in soil, vegetation and water collection and learn methods of sample preparation and analysis for major and trace elements.	geology and earth sciences.	Abir Biswas		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with A. Brabban Andrew Brabban biology Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (biotechnology) studies the physiology and biochemistry of prokaryotes of industrial and agricultural importance. Students who commit at least a full year to a research project, enrolling for 4 to 16 credits each quarter, will learn a broad range of microbiology (both aerobic and anaerobic techniques), molecular (DNA analysis and cloning), and biochemical techniques (chemical and pathway analysis, protein isolation). Students will also have opportunities for internships at the USDA and elsewhere, and to present data at national and international conferences.		Andrew Brabban		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with B. Walter Brian Walter mathematics Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (mathematics) is interested in problems relating to graphs, combinatorial games and especially combinatorial games played on graphs. He would like to work with students who have a strong background in mathematics and/or computer science and who are interested in applying their skills to open-ended problems relating to graphs and/or games.		Brian Walter		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with C. Dirks Clarissa Dirks biology Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (biology) conducts research in many areas of microbiology and ecology. Her recent work in microbiology has focused on the biodiversity and distribution of Tardigrades in different ecosystems. She also aims to better understand the evolutionary principles that underlie the emergence, spread and containment of infectious disease by studying the coevolution of retroviruses and their hosts. Lastly, she is conducting snail surveys in Washington state to better characterize the species in the state, something that hasn’t been done in many decades. Depending on the project, students will gain experience in molecular biology technique, microbiology, field ecology, genetics, bioinformatics and tissue culture.		Clarissa Dirks		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with D. Bopegedera Dharshi Bopegedera chemistry education Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (chemistry) would like to engage students in two projects: (1) There is concern that toxic metals are found in unsafe quantities in children’s toys and cosmetics. I would like to engage a student in the quantitative determination of these metals using the AA and the ICP-MS. Students who are interested in learning to use these instruments and quantitative analysis techniques will find this project interesting. (2) Science and education. We will work with local teachers to develop lab activities that enhance the science curriculum in local schools. Students who have an interest in teaching science and who have completed general chemistry with laboratory would be ideal for this project. (3) I am also interested in looking at chemicals present in e-cigarettes. A student interested in this project could work on the organic or inorganic chemicals.		Dharshi Bopegedera		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with D. McAvity David McAvity biology computer science mathematics physics Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. This independent learning opportunity allows advanced students to delve into real-world research with faculty who are currently engaged in specific projects. Students typically begin by working in apprenticeship with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, written and oral communication, collaboration, and critical thinking that are valuable for students pursuing a graduate degree or entering the job market. (mathematics) is interested in problems in mathematical biology associated with population and evolutionary dynamics. Students working with him will help create computer simulations using agent-based modeling and cellular automata and analyzing non-linear models for the evolution of cooperative behavior in strategic multiplayer evolutionary games. Students should have a strong mathematics or computer science background.	theoretical biology, computer science, mathematics.	David McAvity		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with D. Morisato Donald Morisato biology Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (biology) is interested in the developmental biology of the embryo, a model system for analyzing how patterning occurs. Maternally encoded signaling pathways establish the anterior-posterior and dorsal-ventral axes. Individual student projects will use a combination of genetic, molecular biological and biochemical approaches to investigate the spatial regulation of this complex process.	biology, health sciences.	Donald Morisato		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with E. Zita EJ Zita astronomy physics Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (physics), who has expertise in energy physics, modeling and organic farming, is researching sustainability and climate change. Many students have done fine projects on sustainable energy and food production in her academic programs. Zita is working with Judy Cushing and Scott Morgan to establish a new research program at Evergreen. With Cushing, they will model land use impacts on climate change; with Morgan, they will plan and facilitate sustainability projects on campus. More information on Zita's research is available at .	astronomy, physics, climate studies.	EJ Zita		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with J. Neitzel James Neitzel biochemistry Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (biochemistry) uses methods from organic and analytical chemistry to study biologically interesting molecules. A major focus of his current work is on fatty acids; in particular, finding spectroscopic and chromatographic methods to identify fatty acids in complex mixtures and to detect changes that occur in fats during processing or storage. This has relevance both for foods and in biodiesel production. The other major area of interest is in plant natural products, such as salicylates. Work is in process screening local plants for the presence of these molecules, which are important plant defense signals. Work is also supported in determining the nutritional value of indigenous plants. Students with a background and interest in organic, analytical or biochemistry could contribute to this work.	biochemistry, alternative energy, health sciences.	James Neitzel		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with L. McKinstry Lydia McKinstry chemistry Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (organic chemistry) is interested in organic synthesis research, including asymmetric synthesis methodology, chemical reaction dynamics and small molecule synthesis. One specific study involves the design and synthesis of enzyme inhibitor molecules to be used as effective laboratory tools with which to study the mechanistic steps of programmed cell death (e.g., in cancer cells). Students with a background in organic chemistry and biology will gain experience with the laboratory techniques of organic synthesis as well as the techniques of spectroscopy.		Lydia McKinstry		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with M. Paros Michael Paros biology Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (physiology, microbiologyveterinary medicine) is interested in animal health, diseases that affect the animal agriculture industry, and basic ecology of bacteriophage in physiologic systems. Currently funded research includes the development of bacteriophage therapy for dairy cattle mastitis. A number of hands-on laboratory projects are available to students interested in pursuing careers in science, with a particular emphasis on microbiology.	biology and veterinary medicine.	Michael Paros		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with N. Nelson Neal Nelson computer science Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (computer science)is interested in working with advanced computer topics and current problems in the application of computing to the sciences. His areas of interest include simulations of advanced architectures for distributed computing, advanced programming languages and compilers, programming languages for concurrent and parallel computing.		Neal Nelson		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with N. Switz Neil Switz biology chemistry physics Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	6	06	Day	F 15 Fall	W 16Winter	S 16Spring	Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. Laboratory experience is especially important – and useful – for students planning to pursue graduate studies or enter the technical job market. (physics) develops optical instruments for use in biophysical and biomedical applications, including low-cost diagnostics. Projects in the lab are suitable for motivated students with quantitative backgrounds in physics, biology, chemistry, mathematics or computer science.		Neil Switz		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with P. Schofield Paula Schofield chemistry Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (organic, polymer, materials chemistry) is interested in the interdisciplinary fields of biodegradable plastics and biomedical polymers. Research in the field of biodegradable plastics is becoming increasingly important to replace current petroleum-derived materials and to reduce the environmental impact of plastic wastes. Modification of starch through copolymerization and use of bacterial polyesters show promise in this endeavor. Specific projects within biomedical polymers involve the synthesis of poly (lactic acid) copolymers that have potential for use in tissue engineering. Students with a background in chemistry and biology will gain experience in the synthesis and characterization of these novel polymer materials. Students will present their work at American Chemical Society (ACS) conferences.		Paula Schofield		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with R. Sunderman Rebecca Sunderman chemistry Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (inorganic/materials chemistry, physical chemistry) is interested in the synthesis and property characterization of new bismuth-containing materials. These compounds have been characterized as electronic conductors, attractive activators for luminescent materials, second harmonic generators and oxidation catalysts for several organic compounds. Traditional solid-state synthesis methods will be utilized to prepare new complex bismuth oxides. Once synthesized, powder x-ray diffraction patterns will be obtained and material properties such as conductivity, melting point, biocidal tendency, coherent light production and magnetic behavior will be examined when appropriate.		Rebecca Sunderman		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with R. Weiss Richard Weiss computer science mathematics physics Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (computer science, mathematics) has several ongoing projects in computer vision, robotics and security. There are some opportunities for students to develop cybersecurity games for teaching network security concepts and skills. In robotics, he is looking for students to develop laboratory exercises for several different mobile robotic platforms, including Scribbler, LEGO NXT and iRobot Create. This would also involve writing tools for image processing and computer vision using sequences of still images, video streams and 2.5-D images from the Kinect. In addition, he is open to working with students who have their own ideas for projects in these and related areas, such as machine learning, artificial intelligence and analysis of processor performance.		Richard Weiss		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in Scientific Inquiry with S. Shulman Sheryl Shulman computer science Signature Required: Fall Winter Spring	Research	SO–SRSophomore–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Rigorous quantitative and qualitative research is an important component of academic learning in Scientific Inquiry. Research opportunities allow science students to work on specific projects associated with faculty members’ expertise. Students typically begin by working in an apprenticeship model with faculty or laboratory staff and gradually take on more independent projects within the context of the specific research program as they gain experience. Students can develop vital skills in research design, data acquisition and interpretation, modeling and theoretical analysis, written and oral communication, collaboration and critical thinking. These are valuable skills for students pursuing a graduate degree or entering the job market. (computer science) is interested in working with advanced computer topics and current problems in the application of computing to the sciences. Her areas of interest include advanced programming languages and compilers, programming language design, programming languages for concurrent and parallel computing, and logic programming.		Sheryl Shulman		Sophomore SO Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in the Humanities with G. Mullins Greg Mullins literature philosophy political science Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Students of the humanities who are nearing the end of their Evergreen education may wish to pursue a major research project, senior thesis or capstone project in their particular field of interest. Often, the goal is to contruct an original argument around a particular body of literature, set of ideas or historical events. These kinds of projects develop advanced research skills in the humanities, including the ability to read deeply and critically in a particular field, and to discover and engage with important theoretical writings in that field. Students will also gain valuable skills in reading, analyzing, synthesizing, writing and editing long pieces of complex prose. The best kinds of this work will be invaluable for graduate school applications, and will be an asset to those entering the job market directly following graduation. (American literature, queer theory) specializes in 20th-century and contemporary literature and comparative American Studies (U.S./Brazil). His broad interests include the crossroads of aesthetics and politics, national versus transnational formations of literary studies, queer gender and sexuality, memory studies and poststructuralist theory. Most of the capstone projects he has supervised in the past have been centrally concerned with literary and cultural theory, including visual culture and queer theory. Students are enthusiastically welcome to work with Greg on his research on cultures of human rights and representations of human rights in literature and film.		Greg Mullins		Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in the Humanities with N. Koppelman Nancy Koppelman literature philosophy political science Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Students of the humanities who are nearing the end of their Evergreen education may wish to pursue a major research project, senior thesis or capstone project in their particular field of interest. Often, the goal is to contruct an original argument around a particular body of literature, set of ideas or historical events. These kinds of projects develop advanced research skills in the humanities, including the ability to read deeply and critically in a particular field, and to discover and engage with important theoretical writings in that field. Students will also gain valuable skills in reading, analyzing, synthesizing, writing and editing long pieces of complex prose. The best kinds of this work will be invaluable for graduate school applications, and will be an asset to those entering the job market directly following graduation. (American studies) specializes in American social, literary and intellectual history until 1920. Students who wish to study in these fields are welcome to propose research projects and senior theses. Particular interests include the social and intellectual history of the Puritans; the founding generation, immigrants, the working class and the middle class; industrialization and reform movements; pragmatic philosophy; the history of childhood; and the history of technology and consumer culture. Students are also welcome to work with Nancy to participate in her ongoing research projects on alcohol reform movements, the histories of social/economic mobility and of individual physical movement, and ethical themes in American cultural history.		Nancy Koppelman		Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in the Humanities with S. Davis Stacey Davis literature philosophy political science Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Students of the humanities who are nearing the end of their Evergreen education may wish to pursue a major research project, senior thesis or capstone project in their particular field of interest. Often, the goal is to contruct an original argument around a particular body of literature, set of ideas or historical events. These kinds of projects develop advanced research skills in the humanities, including the ability to read deeply and critically in a particular field, and to discover and engage with important theoretical writings in that field. Students will also gain valuable skills in reading, analyzing, synthesizing, writing and editing long pieces of complex prose. The best kinds of this work will be invaluable for graduate school applications, and will be an asset to those entering the job market directly following graduation. (European history) specializes in French history from the 18th century to the present, as well as the history of French colonies in North and West Africa. Students who wish to study European social, cultural, political, intellectual or religious history from the Middle Ages to the present, including topics in the history of gender and sociocultural aspects of the history of art, are welcome to propose research projects. Students are welcome to work with Dr. Davis on her ongoing research projects on 19th-century political prisoners, notions of citizenship and democracy in modern Europe, memory and the history of aging.		Stacey Davis		Junior JR Senior SR	Fall	Fall Winter Spring
Undergraduate Research in the Humanities with T. Speller Trevor Speller literature philosophy political science Signature Required: Fall Winter Spring	Research	JR–SRJunior–Senior	V	V	Day	F 15 Fall	W 16Winter	S 16Spring	Students of the humanities who are nearing the end of their Evergreen education may wish to pursue a major research project, senior thesis or capstone project in their particular field of interest. Often, the goal is to contruct an original argument around a particular body of literature, set of ideas or historical events. These kinds of projects develop advanced research skills in the humanities, including the ability to read deeply and critically in a particular field, and to discover and engage with important theoretical writings in that field. Students will also gain valuable skills in reading, analyzing, synthesizing, writing and editing long pieces of complex prose. The best kinds of this work will be invaluable for graduate school applications, and will be an asset to those entering the job market directly following graduation. (British/anglophone literature) specializes in the long eighteenth century (1650-1830), including the Restoration, the Enlightenment, and Romanticism. Students who wish to study the literature and political philosophy of these periods are welcome to propose research projects, including capstone projects and senior theses. Particular interests include the rise of the novel, the conception of reason and rationality, and representations of space and place. Previous projects have included studies of Romantic women writers and travel writing. Students are also welcome to work with the faculty member to develop his ongoing research projects on such authors as Daniel Defoe, John Locke, Thomas Hobbes, Bishop Berkeley, Jonathan Swift and John Milton.		Trevor Speller		Junior JR Senior SR	Fall	Fall Winter Spring