Topics included indentured servitude in the U.S. and abroad, the “wages for housework” debate, informal and formalized sex work, and the labor of reproduction.“I designed the class to bring critical race theory and gender studies together into a conversation around the history of this thing we’re calling emotional labor and the histories of value extraction that are embedded in settler colonialism, racial capitalism, and patriarchy — enmeshed systems that frame the way workers produce and consume today,” explained Light.Students read work by theorists of labor, affect, and oppression including Sara Ahmed, Audre Lorde, Iyko Day, and Cedric Robinson. The readings bring new dimensions to the original notion of emotional labor and raise questions about the influence of technologies, governments, and social relationships on current and future work structure.Constance Bourguignon ’20, a joint concentrator in Romance languages and literatures and studies of women, gender, and sexuality, plans to be a high school teacher and was drawn to the course because of its focus on vital care work that is often underpaid and undervalued.“Some of my favorite readings were about ‘do what you love’ messaging, and how this messaging is mobilized to make people more productive, which is something that can be applied, among other things, to being a teacher,” said Bourguignon. “There’s this weird idea that if you’re doing what you love, then you don’t need to be paid as much for it, and that it isn’t as valuable. In terms of inequality, not everyone has equal access to doing what they love, and so [the message] kind of shames people who come from a socioeconomic, or racial, or gender background where they’re made to perform labor that they don’t necessarily enjoy.” “My students have been able to apply Marxist, feminist, and critical race theories to the labor that they do, whether it’s paid work or volunteering, and how it becomes commodified in the service of their institutional community.” — Caroline Light, course instructor Bourguignon and more than 80 other students entered the lottery for the course, now in its second year and offered jointly by the Committee on Ethnicity, Migration, Rights and the Studies of Women, Gender, and Sexuality Department. Most of the 17 students in “Love’s Labors Found” were seniors, and many came to the course from other concentrations, including computer science and English.“Caroline Light is one of the best professors I’ve had at Harvard, and her class has been one of the most intellectually fulfilling experiences I’ve ever had,” said Angela Hui ’20, an English concentrator. “I appreciated how deeply this class makes us think and how many viewpoints and analytical approaches we’ve engaged with. Interdisciplinary fields like WGS are extremely valuable, and a comprehensive understanding of any issue requires thinking across disciplinary boundaries.”For Light, the interdisciplinary approach to studying emotional labor lends itself to more nuanced analysis and application to students’ lives in the classroom, at Harvard more broadly, and in the world beyond college.“My students have been able to apply Marxist, feminist, and critical race theories to the labor that they do, whether it’s paid work or volunteering, and how it becomes commodified in the service of their institutional community,” she said.“Next year, many of them will graduate and enter various workplaces, some in economically powerful spaces like finance and consulting, and for some, their class escalation may be significant after they leave Harvard. I hope they’ll take with them a certain critical vision that helps them better diagnose their experiences, but also to see how their experience as workers is interconnected with other flows of labor, capital, and value in a global community.”“We deal with really intense, emotional issues in class, but we also try to look at some of the ideological and theoretical modes of resistance in the readings and from each other,” said Bourguignon. “Sometimes it’s dark, but there are ways to fight back.” Is a smiling flight attendant performing emotional labor? How about the harried mom baking cupcakes for a kindergarten class, or your friend who’s always ready to listen and dispense advice?The term “emotional labor” was first coined in 1983 by sociologist Arlie Russell Hochschild to refer to jobs that require people to manage the feelings of others at the expense of their own. Consider, for instance, how child-care workers and teachers must maintain a cheerful, positive tone with their charges and parents, regardless of how they feel.The concept has been expanded and become a lens to view a variety of paid and unpaid work, including household chores and household management, social organizing at the office, and intimate relationships, with an eye toward the hidden, unacknowledged costs of time, effort, and stress. And in the seminar course “Love’s Labors Found: Uncovering Histories of Emotional Labor,” Caroline Light and her students scrutinize the myriad ways emotion and work intersect, encouraging students to think critically about the connections between labor and identity, and how their experiences fit into larger systems.“Emotional labor has become somewhat of a buzzword in the past five years or so, and doesn’t mean the same thing for a historian, or a sociologist, or psychologist,” said Light, director of undergraduate studies and senior lecturer on studies of women, gender, and sexuality. “It resonates so much for this generation of students, because many of them see themselves as producers of certain forms of under-remunerated, unremunerated, underacknowledged, or invisible forms of labor,” including peer counseling, tutoring, and volunteer work.The course covers current issues of visibility and lack of economic compensation for “work that is disproportionally done by female-identified people to reproduce the workforce [through having children] and then to maintain these kinds of structures that we depend on in a capitalist economy,” said Light. “Some of my favorite readings were about ‘do what you love’ messaging, and how this messaging is mobilized to make people more productive …” — Constance Bourguignon ’20 The Daily Gazette Sign up for daily emails to get the latest Harvard news.
Student researchers in the Viterbi School of Engineering are putting math and medicine hand in hand to better track the spread of lung cancer in the human body.The project, which was started four years ago by researchers from USC, Scripps Clinic, The Scripps Research Institute, University of California, San Diego Moores Cancer Center and Memorial Sloan-Kettering in New York, aims to use mathematical models and algorithms created by Viterbi in order to analyze the science and medicine behind cancer cell growth.Viterbi Professor of Aerospace and Mechanical Engineering Paul Newton, the lead and corresponding author of this study, said the researchers hope to build computational and mathematical models to design clinical trials and inform doctors of different kinds of treatment scenarios.“The ultimate goal [of this research] is to develop computer simulations and mathematical models that are typically designed for individual patients,” Newton said. “We want models where we take data from an individual patient, which would be something like blood samples and circulating tumor cell counts and also their whole genome, and we would like to have models of each individual person to see how they will develop over time.”Newton said that the current model is a ensemble-based model that is based on thousands of patients. The ultimate goal is to get individual data and do patient-specific modeling.“This is the beginning stage of developing more sophisticated computational models for the spread of cancer,” Newton said. “We have the first stage of this whole project, which is a five-year stage.”Newton said the project faces several challenges, namely translating the research to actual treatments.“One [challenging aspect] is to overcome the language barrier between the medical world and the science and engineering world,” Newton said. “In general, doctors do not think the way scientists and engineers think. They focus on the treatment of the disease. Also, [another challenge is] to overcome the differences in kinds of questions a doctor would ask versus the kinds of questions an applied mathematician like me would ask.”Newton said that two graduate students and two undergraduate students from Viterbi are participating in this project as well.Angie Lee, a graduate student in aerospace and mechanical engineering who is participating in the project, said the project is significant for the advancement of cancer research because engineers and applied mathematicians can bring together information from various disciplines to better understand how cancer affects patients.“I build models of circulating tumor cells in flow in the bloodstream,” Lee said. “It’s been exciting to witness how my models can assist cell biologists, experimentalists and even physicians in understanding the flow physics of various cancer processes in the body.”Though Lee said some people find it strange that an engineer is doing cancer research, she noted that the interdiscipinary research opportunity, and the project’s pragmatic benefits were compelling on a personal level.“This project first caught my eye as something that would be both useful and enjoyable throughout my tenure at USC,” Lee said. “I didn’t want to end up with a project that I didn’t enjoy, and it was an added bonus to work on something that could be useful on a very large scale.”Mher Almasian, a junior majoring in civil engineering who worked on the project, said combining engineering and medicine could not just save time but also money.“The central concept behind all fields of engineering is not just being able to find solutions, but being able to do so given various constraints and doing it in the most efficient and cost-effective manner,” Almasian said. “Applying engineering and math to the field of medicine would naturally lead to the knowledge and resources available in medicine being applied in the most effective and efficient way.”Mary Stepanyan, a senior majoring in human development and aging, said her work on the project has shown her first hand how important interdisciplinary research in medicine.“It’s important to use different areas of study, such as math or engineering, in medicine if it could lead to more efficient ways of studying human health disease,” Stepanyan said. “This study is a great example of how people can combine different areas of study and improve the well-being of human health in the future.”