State University Long Research Articles

Research, Science Identity, and Intent to Pursue a Science Career: A BUILD Intervention Evaluation at CSULB.

This paper presents an analysis of survey data to examine the association between participating in one of the National Institute of Health's (NIH) funded Building Infrastructure Leading to Diversity Initiative (BUILD) program and students' intent to pursue a career in science. Data were collected from students at California State University Long Beach (CSULB) to examine the effectiveness of the BUILD Scholars program. Both BUILD Scholars and non-BUILD students were surveyed. Propensity score matching was used to generate the non-BUILD comparison group. Multinomial logistic regression results revealed that students participating in the BUILD intervention were associated with significantly higher intent to pursue a career in science. Results also showed the importance of variables such as science identity and research participation when assessing interest in science careers. These findings have implications for STEM program evaluation and practice in higher education.

Introductory course-based research experience for university sophomores: Using testicular-feminized mice to identify genes underlying brain sexual differentiation

Like many educators, we are striving to incorporate more active learning and inquiry-driven exercises into our STEM curricula. Course-based undergraduate research experiences (CUREs) have become more common in undergraduate laboratory courses in many STEM fields. Here we detail a new CURE developed in a sophomore-level undergraduate molecular neuroendocrinology course at California State University Long Beach. The course centered on the mouse model carrying testicular feminization mutation ( Tfm). This mutation, resulting from a single base deletion, produces a nonfunctional androgen receptor (AR) protein. Thus, Tfm mice are insensitive to androgen through ARs, providing an excellent model to probe the physiological role of ARs in the development of the brain and behavior. Since AR is the main mediator of androgen activity by acting as a hormonal transcription regulator, gene expression profiling has been measured in the brains of Tfm mice and normal controls to identify the potential AR-regulated genes as downstream molecular effectors. Our CURE took a similar approach, aiming to determine (1) if the selected genes were expressed differentially between the sexes and (2) if their expression could be altered by loss of AR in specific brain regions. Three broad goals of having students think, communicate, and perform like scientists were organized in the learning objectives for the CURE. All participating students (n=21) were pursuing a biology or related major, and none had any experience conducting independent laboratory research. Here students first used polymerase chain reaction (PCR) genotyping to screen the mice carrying the Tfm mutation and their sexes. They next conducted a literature search and review, through which they learned how to select databases and how to combine key words to create a productive search string for identifying the potential AR-regulated genes. Last, students performed RT-qPCR in the wild-type and Tfm mouse hypothalamus and measured sex- and AR-dependent gene expression. These modules cover not only key concepts in genetics, molecular biology, and neuroendocrinology, but also the development of methods and techniques, including DNA/RNA extraction, electrophoresis, and RT-PCR/qPCR. We designed the CURE for a semester timeline with a single three-hour laboratory section meeting once a week for 15 weeks. All modules were taught and conducted in a research laboratory containing all materials and equipment necessary for research. At the end, students constructed and presented posters on their results. To assess how well students achieved the learning goals, we administered pre- and post-course surveys. Students reported striking gains related to the learning goals, with a high degree of satisfaction. Students also perceived the improved understanding of the scientific backgrounds and methods in the CURE. This CURE course illustrates that authentic research experiences, which use complex molecular techniques, can be offered to sophomore students. The course can serve as a template to ignite students’ intellectual curiosity and improve their understanding of the scientific process by engaging them in novel research. This work was supported by the Keck Undergraduate Research Experiences (KURE) Incubator funding. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

The Changing Landscape of Technical Services Education

Technical Services (TS) has been undergoing many changes in response to societal, technological, and institutional shifts as are many areas within LIS. In addition to understanding changes in cataloging standards, technical services staff must have cultural and behavioral competency to meet the needs of increasingly diverse user populations. To prepare LIS students effectively, technical services educators must continually adapt and update their courses. 
 The Technical Services Education SIG session will include a panel of three educators who will discuss current areas of importance in TS education: innovative online pedagogy, EDI (equity, diversity, and inclusion), and core competencies.
 Susan Rathbun-Grubb will report on the development of a new online course supported by a University of South Carolina Center for Teaching Excellence (CTE) Innovative Pedagogy Grant. This includes collaborating with a CTE instructional designer in preparation for teaching the course in Spring 2024. This presentation will describe the creative process and the proposed course plan including objectives, topical coverage, pedagogical strategies, and assessments. Dr. Rathbun-Grubb is interested in having a conversation with attendees about their best practices for teaching TS management online in a student-centered seminar format.
 Lesley Farmer will present on the incorporation of EDI into the Organization of Information course in California State University Long Beach's Teacher (school) Librarian program. An explicit EDI strand was developed for the course, including readings/videos for each module and corresponding learning activities. Students have responded very favorably by actively identifying and addressing EDI issues and by seeing themselves as necessary change agents for social justice. This presentation explains the process, the results, and useful resources.
 Karen Snow is leading an effort to revise the American Library Association’s 2017 Core Competencies for Cataloging and Metadata Professional Librarians and will report on the status of the endeavor. This includes determining if the 2017 Competencies are sufficient for current cataloging and metadata professionals. Dr. Snow will discuss how TS educators help provide a good foundation of cataloging and metadata competencies that best prepares our students for such a rapidly-changing field. 
 After the presentations, audience members will be encouraged to ask questions and offer their own experiences and ideas concerning this area of LIS education. These presentations align well with the ALISE 2023 conference theme of “Bridge the Gap: Teaching, Learning, Practice, and Competencies.”

Using organizational patterns as a strategy for teaching expository writing in an introductory food science course

AbstractOrganizational patterns can serve as a teaching strategy for instructors and as a learning tool for students to develop their expository writing skills, which are commonly required for assignments (for example, laboratory reports and research papers) in Food Science courses and in their future careers. The article discusses the importance of organizational patterns for teaching expository writing through an interdisciplinary collaboration. The teaching collaboration occurred with professors from Food Science, English, and Anthropology in an introductory Food Science course (FSCI 232) taught at California State University Long Beach (CSULB). In FSCI 232, students learned how to use organizational patterns to interpret and explain the content of an infographic obtained from the Food Technology magazine, published by the Institute of Food Technologists (IFT). The infographic “Global Obesity's Expanding Girth, the World is Getting Fatter” served as a visual stimulus to help students identify these patterns, focusing on inquiry and analysis of scientific data and skills required for technical writing. Furthermore, the article illustrates those other potential applications of organizational patterns using the infographic could extend to interdisciplinary content (that is, Food Anthropology), which facilitates the development of cultural competency and sensitivity in food systems. Additionally, the article provides sample activities for teachers to use in their classrooms. To summarize, organizational patterns can serve as an effective teaching strategy to enhance students’ writing skills across Food Science and related disciplines.

Data driven course scheduling to ensure timely graduation

ABSTRACT With progressively decreasing state funding in the last two decades, timely graduation has become an imperative yet challenging problem for many public universities. Our research empirically studies students' enrolment and performance data during an 8-year period in a large college at the California State University Long Beach. Through data analytics, we identify four fundamental issues that lead to delayed graduation. We propose innovative solutions that directly tackle each of the four identified issues while systematically matching capacity and demand. Specifically, we propose major-specific degree roadmaps tailored to increase the chance students can successfully complete all required courses within the timely graduation window. Given major migration behaviours, we design robust roadmaps that proactively prepare students for possible major change later without delaying graduation. The well-crafted degree roadmap provides students with a clear path to degree attainment, as well as guidance on the timing of course enrolments. Further, to maximise students' access to courses as well as capacity utilisation, we develop an optimisation model to determine the class schedule in which all students are guaranteed a seat within their preferred time window in all required classes. The proposed approach is widely applicable to many institutions facing the timely graduation challenge.

Learners' experience and needs in online environments: adopting agility in teaching

PurposeIn response to coronavirus disease 2019, California State University Long Beach (CSULB) announced mandatory online course conversions on March 12, 2020. The College of Business designed a Student Online Learning Experience Survey to explore learners' experience, needs, expectations and challenges in the online learning environment.Design/methodology/approachThe time-sensitive survey questions were administered using Qualtrics with Institutional Review Board approval. The authors used 5-point Likert scales to rate students' experience and satisfaction and performed statistical analysis. They assessed students' written comments to further corroborate statistical findings.FindingsThe results identify students' satisfaction are highly correlated to content coverage and interaction of online learning technologies. A combination of BeachBoard, Zoom, e-mails and publisher's website is valued most by the learners. Project-based experiential design is ranked #1 by graduate students. Noticeably, the upward trend of satisfaction with online modality from sophomore to senior is probably attributable to learners' maturity and number of years studied at CSU system. Overall, students generally dislike proctoring devices due to concerns of privacy, inequalities, mental stress, etc.Practical implicationsThe evidence-based results offer innovative pedagogical recommendations for business education in higher education.Originality/valueWhile prior studies examine student perceptions and satisfaction within the online education system, the study aims to deeply investigate the students' experience after a large-scale two-week institutional emergency course conversion mandate. This study systematically reviews students' experience with four aspects of online learning: (1) the adequacy of instructional designs; (2) the effectiveness of technology; (3) the appropriateness of the online learning material and (4) the integrity of online assessment and testing tools.

Preparing Undergraduate Students for Summer Research Experiences and Graduate School Applications in a Pandemic Environment: Development and Implementation of Online Modules.

Engaging students in research is a high impact practice that improves student retention and persistence in behavioral and biomedical sciences and engineering. The California State University Long Beach (CSULB) Building Infrastructure Leading to Diversity (BUILD) Program offers an intensive research training experience to undergraduate students from a wide range of health-related disciplines. The goal of this program is to provide students with research skills, psychosocial resources, and graduate school application guidance that will make them competitive for Ph.D. programs. With the COVID-19 pandemic forcing the campus closure of many universities, including CSULB, our student training had to transition from in-person training to online training. This paper discusses the development and implementation of a series of eight online modules for guiding students through the application process for summer research experiences and graduate schools. Overall, the BUILD trainees were positive about the online modules. Specifically, they indicated that the modules were useful, informative, easy to access/use, good use of their time, and a good supplemental activity to their learning community activities. Most trainees indicated that they preferred the modules to be implemented in a hybrid format, where the students can view the modules on their own first and then have an opportunity to engage in in-person/synchronous online discussions.

Developing Academic Engagement Through a Virtual Week of Research, Scholarly, and Creative Activity: Rethinking Collaboration.

The goal of having a Week of Research, Scholarly, and Creative Activity (RSCA) virtual event was to highlight and acknowledge the valuable array of research, scholarly, and creative activities that are currently being done across the entire campus at California State University Long Beach (CSULB). There's no doubt that in 2020 and 2021, our lives have been impacted in a multitude of ways. The COVID-19 global pandemic placed restrictions on in-person gatherings that forced many to rely on virtual meetings. Even with 'zoom' fatigue taking over, we felt that it was essential to hold the Week of RSCA event virtually in the 2020-2021 academic year. Students, faculty, and staff on campus are a community that supports one another, and CSULB seeks to enhance its local/national/global communities with the research, scholarly and creative activities that we conduct on our campus. This paper describes the development of the Week of RSCA event, its transition from an in-person to virtual event, the challenges for delivering a virtual event, and the lessons learned when we have to rethink collaboration during a pandemic.

Advancing Inclusive Mentoring Through an Online Mentor Training Program and Coordinated Discussion Group.

Mentoring is key to ensure success of the high impact practice of undergraduate-led research and scholarly activities; however, most faculty and staff members are not trained in the best practices of mentoring undergraduate students. The National Institutes of Health-funded Building Infrastructure Leading to Diversity (NIH BUILD) Initiative at California State University Long Beach is developing an online mentor training program with a coordinated discussion group to refine mentoring skills across faculty and staff from all disciplines. Faculty and staff members participated in two pilots of the Advancing Inclusive Mentoring (AIM) Program, where participants watched training videos and came together to discuss mentoring: either face-to-face (spring 2020) or virtually (fall 2020). Participants indicated that the videos and discussion were engaging and reported that AIM provided useful information on communicating with their own mentees as well as with any student on campus. Participants also reported that AIM provided strategies to work with students from diverse backgrounds and strengthened their commitment to inclusive mentoring. Finally, participants indicated that they would recommend AIM to colleagues and that the program was not only beneficial to their mentoring, but also that they would put into practice techniques that they had learned. There were some differences in usage, but no significant differences in participants' ratings of the program across the two delivery formats. Thus, the AIM Program with facilitated discussion appears to provide a useful mentor training experience in both in-person and virtual formats. Because this unique program is intentionally inclusive to faculty and staff mentors across all disciplines, the goal is that this training will ultimately benefit student success across campus.

<p class="ZootaxaTitle"><strong>13<sup>th</sup> International Polychaete Conference (IPC13) Editorial</strong></p>

In 1989, Donald Reish hosted the 3rd International Polychaete Conference (IPC3) in Long Beach, on the campus of California State University Long Beach. In 2015 he asked one of us (Bruno Pernet) if it might be possible to bring IPC13 back to Long Beach, thirty years later. Bruno assembled a planning committee consisting of himself and Christine Whitcraft (CSU Long Beach), Kirk Fitzhugh and Leslie Harris (Natural History Museum of Los Angeles County), and Larry Lovell (Dancing Coyote Environmental). The committee’s proposal was accepted at the International Polychaetology Association (IPA) general meeting in Wales in 2016, and the planning committee morphed into an organizational committee!

Crowdsourcing as a Social Interaction Tool to Stimulate Sustainable Transportation Mode Use

Background: In this paper, a crowd-based social interaction framework is developed to assess the potential increase in the use of sustainable transportation modes – such as walking, bicycling and public transit. Methods: The empirical data were used to validate mode shift behaviors for 77 participants from California State University Long Beach. Data collection spanned over two phases, Phase I followed by Phase II. Each study phase lasted a month. Participants used one of the four modes – personal car, walking, bicycling and public transit - to arrive at the university campus. During Phase I, a control group was created, and individual mode choice of participants were obtained. Individual participants in Phase II were assigned short-encrypted distinct names and were asked to post a daily comment on the quality of experience using the mode that was used to arrive at the campus. The participants were asked to post the comments over a “Twitter” page that was used as the crowdsourcing platform for this study. The encrypted name masked the individual identity of the user. Analysis at the end of Phase II showed that there was an overall mode-shift of almost 19% of personal car users to other sustainable modes of walking, bicycling and transit. Results: Results show very important policy implications of using crowdsourcing as a social interaction tool to influence mode choice behavior of commuters, especially among college students and young adults. Conclusion: A crowd-based social interaction framework is developed to assess potential increase in the use of sustainable transportation modes – such as walking, bicycling, and public transit. Results showed that providing advanced information on traffic and parking problems can result in a mode shift to active transportation modes.

An Introduction of Droplet Impact Dynamics to Engineering Students

An intensive training course has been developed and implemented at the California State University Long Beach based on 8 years of experience in the multiphase flow area with the specific focus on droplet–solid interactions. Due to the rapid development of droplet-based equipment and industrial techniques, numerous industries are concerned with understanding the behavior of droplet dynamics and the characteristics that govern them. The presence and ensuing characteristics of the droplet regimes (spreading, receding, rebounding, and splashing) are heavily dependent on droplet and surface conditions. The effect of surface temperature, surface wettability, impact velocity, droplet shape and volume on droplet impact dynamics, and heat transfer are discussed in this training paper. Droplet impacts on moving solid surfaces and the effects of normal and tangential velocities on droplet dynamics are other topics that are discussed here. Despite the vast amount of studies into the dynamics of droplet impact, there is still much more to be investigated as research has expanded into a myriad of different conditions. However, the current paper is intended as a practical training document and a source of basic information, therefore, the scope is kept sufficiently broad to be of interest to readers from different engineering disciplines.

Forbidden Protein Angles: Triosephosphate Isomerase as a Model for Studying Peripheral Residue Contribution to Catalysis.

Over the past 3.5 billion years of evolution, enzymes have adopted a seemingly infinite number of conformations to suit life on earth. However, torsional angles of proteins have settled into limited zones of energetically favorable dihedrals observed in Ramachandran plots. Areas outside said zones are believed to be forbidden to all amino acids, save glycine, due to steric hindrance. Triosephosphate Isomerase (TIM), a homodimer with a catalytic rate approaching the diffusion limit, contains an active site Lysine 13 (K13) with a dihedral within the forbidden zone (phi=69/psi=−139). Both the amino acid and the dihedral angle are conserved across all species of TIM and known crystal structures regardless of ligand. Only crystal structures of the engineered monomeric version (1MSS) show accepted β‐sheet dihedral values of phi=−135/psi=170 but experiments show a 1,000‐fold loss in activity. Based on these results, we hypothesized that adopting the forbidden torsion angle for K13 contributes to catalysis. Using a combination of computational and experimental approaches, four residues that interact with K13 (N11, M14, E97, and Q64) were mutated to alanine from single to quadruple mutants. In Silico Molecular Dynamic (MD) simulations of 5×200ns per mutant species were made using 2JK2 unliganded Human TIM as a starting structure. Heat Maps, containing 400,000 K13 dihedral values per run reveal full or partial loss of forbidden zone angles depending on mutant combination. Initial experimental results with E97A single mutant showed a three‐fold decrease in kcat with little change in the KM value suggesting a modest catalytic role for this residue. For this mutant the heatmaps revealed the K13 angle spends less than 30% of its time in the forbidden zone compared to over 50% occupation in the wildtype suggesting the rate decrease may be due to the mutation affecting the positioning of K13. In addition to ongoing In Vivo characterization of the remaining mutants, double mutant cycles will be used to evaluate their energetic connections with K13. As modern protein design relies on naturally occurring protein folds, understanding how to recreate forbidden angles may enhance catalytic rates in unnatural enzymes and achieve chemical reactions not yet envisioned by nature nor organic chemistry.Support or Funding InformationWe would like to thank California State University Long Beach and the Carl E. Riley Endowed STEM scholarship for their generous funding.Heat map of where K13 dihedral occupies space on Ramachandran Plot over 200ns of MD simulation using Wild Type Human Triosephosphate Isomerase (RCSB:2JK2).Figure 1

Contributors

Contributors

Proliferating Possibilities: Speculative Futures in Art and Design Art Gallery: Introduction

August 01 2019 Proliferating Possibilities: Speculative Futures in Art and Design Art Gallery: Introduction Brittany Ransom Brittany Ransom Brittany Ransom is an associate professor of Sculpture/4D and Associate Director of the School of Art and at California State University Long Beach. As a member of the faculty of the College of The Arts, she works within the sculpture area and specializes in 3D rapid production, digital fabrication and physical computing/kinetics. Ransom’s studio practice aims to probe the lines between human, animal and environmental relations while exploring emergent technologies. Ransom is the recipient of numerous awards and grants including the competitive ZERO1 American Arts Incubator Fellowship (2019), Los Angeles Clean Tech Incubator Artist In Residence (2019) and the Arctic Circle Research Residency (2014). In 2017 Ransom served as the SIGGRAPH Studio Chair in Los Angeles. Search for other works by this author on: This Site Google Scholar Author and Article Information Brittany Ransom Brittany Ransom is an associate professor of Sculpture/4D and Associate Director of the School of Art and at California State University Long Beach. As a member of the faculty of the College of The Arts, she works within the sculpture area and specializes in 3D rapid production, digital fabrication and physical computing/kinetics. Ransom’s studio practice aims to probe the lines between human, animal and environmental relations while exploring emergent technologies. Ransom is the recipient of numerous awards and grants including the competitive ZERO1 American Arts Incubator Fellowship (2019), Los Angeles Clean Tech Incubator Artist In Residence (2019) and the Arctic Circle Research Residency (2014). In 2017 Ransom served as the SIGGRAPH Studio Chair in Los Angeles. Online Issn: 1530-9282 Print Issn: 0024-094X © 2019 ISAST2019ISAST Leonardo (2019) 52 (4): 396–399. https://doi.org/10.1162/leon_a_01782 Cite Icon Cite Permissions Share Icon Share Facebook Twitter LinkedIn MailTo Views Icon Views Article contents Figures & tables Video Audio Supplementary Data Peer Review Search Site Citation Brittany Ransom; Proliferating Possibilities: Speculative Futures in Art and Design Art Gallery: Introduction. Leonardo 2019; 52 (4): 396–399. doi: https://doi.org/10.1162/leon_a_01782 Download citation file: Ris (Zotero) Reference Manager EasyBib Bookends Mendeley Papers EndNote RefWorks BibTex toolbar search Search Dropdown Menu toolbar search search input Search input auto suggest filter your search All ContentAll JournalsLeonardo Search Advanced Search This content is only available as a PDF. © 2019 ISAST2019ISAST Article PDF first page preview Close Modal You do not currently have access to this content.

A Novel Assessment of Metabolic Flexibility: Dynamic Metabolic Adjustments to Exercise

Metabolic flexibility is a broad concept, considering how an organism responds to changing energy demands. Increasing body fat is a significant marker and risk factor for the development of severe and debilitating diseases such as obesity, metabolic syndrome, diabetes and cardiovascular disease. Such pathologies are attributed, in part, to reduced metabolic flexibility and impaired capacity to efficiently recruit fatty acids as a metabolic fuel. Much interest is focused on improving metabolic flexibility to prevent and treat metabolic diseases. Lacking, however, is a quantifiable index of metabolic flexibility. It is well understood that exercise intensity normally influences both metabolic rate as well as the relative proportions of carbohydrate (CBH) and fatty acid (FA) fuels satisfying metabolic demands. More enigmatic are the dynamic patterns of fuel selection during the onset of exercise. We are proposing a new method to assess metabolic flexibility; quantification of latencies to metabolic adjustment favoring FA metabolism during sustained low to moderate intensity exercise. This quantification is based on measurements of Oxygen consumption and CO2 production, and calculations of Respiratory Exchange Ratio (RER) illustrating the relative proportions of CBH and FA use as metabolic fuels. At rest, metabolic demands are met with a combination of CBH and FA fuels. At the onset of exercise, increased metabolic demand is initially satisfied by increasing CBH metabolism. With sustained moderate intensity exercise, a healthy and flexible metabolism will adjust fuel choice to increase proportionate FA metabolism. We track the dynamic changes in RER during the onset of exercise, to identify the latency to this metabolic adjustment favoring FA metabolism. We propose that a healthy and flexible metabolism will adjust to the metabolic demands of exercise by efficiently adjusting fuel selection between CBH and FA. In contrast, poor metabolic flexibility will result in a longer latency to, or an absence of, this metabolic adjustment. We present measurements of RER changes during exercise to illustrate the latency of metabolic adjustment, and compare these latencies between subjects across a range of morphometric characteristics. We propose that latency to metabolic adjustment with moderate sustained intensity exercise may be a quantifiable index of metabolic flexibility. This index could assist in evaluating metabolic health, and interventions directed at preventing and treating metabolic disease.Support or Funding InformationWork reported in this publication was supported by the National Heart Lung and Blood Institute and National Institute of General Medical Sciences of the National Institutes of Health under Award Numbers 1R15HL126105, 1SC2GM112570, and by an internal award from California State University Long Beach Office of Research and Sponsored Programs. The work is solely the responsibility of the authors and does not necessarily represent the official view of the National Institutes of Health or any other funding body.This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

Application of fully permeable pavements as a sustainable approach for mitigation of stormwater runoff

Abstract The current research paper presents the implementation of a new design method for fully permeable pavements, developed using the mechanistic-empirical approach by the University of California Pavement Research Center (UCPRC) through building two test sections which includes asphalt and concrete at California State University Long Beach (CSULB). Fully permeable pavements are characterized as that in which all layers are permeable, and the pavement structure serves as a reservoir to store water and minimize the negative impacts of stormwater. Pressure cells and strain gages were installed during the construction of pavement for measuring the stress on the top of subgrade and strain at the bottom of surface layer on both test sections to evaluate the performance of the fully permeable pavement. In this study, the traffic count was also determined. The collected data from pressure cells and strain gages were analysed using MATLAB program and graphs were plotted to study the pattern in the data sets. The plots revealed that the asphalt section experienced more stress and strain in comparison to concrete test section. Both the test sections showed reliable performance in terms of distresses. Though the year 2017 was considered to be one of the wettest in California, both test sections performed well in infiltrating the stormwater. The collected data is being used to evaluate the performance of both test sections. Based on the performance evaluation results, it was determined that it is possible to develop and implement the fully permeable pavement design as part of a sustainable approach for freeways.

Teaching Ethnographic Methods Through a Study of Transportation Choices on a California Campus

Acquiring knowledge of and using methodology is a critical facet of ethnographers' training. For working students and those with families who cannot leave home for extended periods, class-based projects provide an important alternative to the field school experience. These projects may also have practical dimensions that can be shared with members of the local community. California State University Long Beach students enrolled in an ethnographic methods course used the participation observation and interviewing skills they learned in class to explore commuting habits and shared these results with the campus. This discussion summarizes the course structure, projects, and research findings and analyzes students' perceptions of ways that this hands-on research project allowed them to feel more connected to the campus and discipline.

Unsettled: Cambodian Refugees in the New York City Hyperghetto

Book Review| April 01 2017 Unsettled: Cambodian Refugees in the New York City Hyperghetto Unsettled: Cambodian Refugees in the New York City Hyperghetto. By Eric Tang. Philadelphia: Temple University Press, 2015. 220 pp. List of figures, notes, bibliography, and index. $78.50 (cloth); $24.95 (paper). Karen Quintiliani Karen Quintiliani California State University Long Beach Karen Quintiliani, PhD is Professor and Chair of Anthropology at California State University, Long Beach. She has conducted research in the Long Beach Cambodian community since 1988 on power and politics in refugee communities, social welfare policy, gender and sexuality, refugee health, and youth cultures. She is cofounder, with Dr. Susan Needham, of the Cambodian Community History & Archive Project (www.camchap.org). Search for other works by this author on: This Site Google Journal of American Ethnic History (2017) 36 (3): 114–115. https://doi.org/10.5406/jamerethnhist.36.3.0114 Cite Icon Cite Share Icon Share Facebook Twitter LinkedIn MailTo Permissions Search Site Citation Karen Quintiliani; Unsettled: Cambodian Refugees in the New York City Hyperghetto. Journal of American Ethnic History 1 January 2017; 36 (3): 114–115. doi: https://doi.org/10.5406/jamerethnhist.36.3.0114 Download citation file: Zotero Reference Manager EasyBib Bookends Mendeley Papers EndNote RefWorks BibTex toolbar search Search Dropdown Menu toolbar search search input Search input auto suggest filter your search All Scholarly Publishing CollectiveUniversity of Illinois PressJournal of American Ethnic History Search Advanced Search The text of this article is only available as a PDF. Copyright 2017 by the Board of Trustees of the University of Illinois2017 Article PDF first page preview Close Modal You do not currently have access to this content.

Evaluation of Entry-level Dietitians’ Competency After Graduation from California State University Long Beach Dietetic Internship

Evaluation of Entry-level Dietitians’ Competency After Graduation from California State University Long Beach Dietetic Internship