In a new class from MIT Women's and Gender Studies (WGS.160/STS.021) students explore how STEM researchers bring their knowledge to bear on behalf of major societal issues.
The classroom in the fall of 2020 looked very different than it did when Science Activism: Gender, Race, and Power (WGS.160/STS.021) ran for the first time in 2019. Zoom breakout rooms replaced circles of chairs, but that shift made the class no less immersive and urgent for its students.
In fact the pandemic context made the core questions of the class all the more vivid: What roles have U.S. scientists and technologists played as activists in crucial social movements following WWII? What are their motivations, responsibilities, and strategies for organizing? What is their impact?
Scientists have been on the frontlines of active citizenship and policy engagement in recent years in very visible ways — in the People’s Climate Movement, in controlling the global COVID-19 pandemic, and in testimony about biases in facial recognition in Congress, to name just a few.
But as students in the Science Activism class have learned, this engagement isn’t a new phenomenon. There is a long history of scientists championing important issues, policy positions, and public education by bringing to bear their scientific knowledge and perspectives. Case studies in this intersectional survey course include the civil rights movement, the nuclear freeze campaign, climate science and action, environmental justice, Vietnam War protests, the March 4 movement at MIT, and advocating for gender equality in STEM fields.
“Activism is a way for groups with less power in democratic societies to have their voices heard in order to effect change. Scientists can no longer take for granted that their results speak for themselves.” — Edmund Bertschinger, MIT Professor of Physics
Explore the WGS.160/Science Activism class on MIT OpenCourseWare — free course materials from MIT classes
From the research bench to the policy table
Scientific knowledge is now critical for public understanding and sound policy for most of today’s most critical issues — from climate to human health to food security — and MIT students are eager to understand how their works interact with social realities and how they can lend their expertise to advancing better conditions and policies.
“The class was informed by the increasing efforts by scientists to engage in public policy not only at the ballot box, or by providing testimony,” says Ed Bertschinger, Professor of Physics, who led the initial class in 2019 as well as the Fall 2020 class. “More scientists are also taking up causes of activism. That’s been true at MIT and around the country.”
As a faculty affiliate of the Program in Women’s and Gender Studies, Bertschinger notes that science has never been purely objective nor detached from society. “Activism is a way for groups with less power in democratic societies to have their voices heard in order to effect change,” he observes. “Scientists can no longer take for granted that their results speak for themselves.”
Bertschinger recalls that his first experience with activism was in graduate school, in the 1980s, when he served as an organizer for the Nuclear Weapons Freeze Campaign. “I was following the lead of an MIT group,” reflects Bertschinger, “including scholars such as the late Randall Forsberg and Philip Morrison, who were leaders in the nuclear disarmament effort in the US.”
Bridging the gap
His students now are similarly broadening their areas of academic interest into awareness of the context, impact, and influence their respective fields have in society.
For Eleane Lema, a senior majoring in Chemistry/Biology (5-7) and minoring in Anthropology (21A), the draw of Science Activism came from a sense of disconnection between her academic life as a scientist and her drive to make a positive social impact. The class subjects dovetail with her explorations of environmental justice and the unequal benefits and harms scientific change has for different communities.
Taking MIT’s mission “for the betterment of humankind” to heart since her first year at the Institute, Lema seeks ways to combine her technical education and her wish to engage in meaningful social work. This past summer, for instance, she had a health policy internship through MIT’s Washington Internship program, a longstanding initiative led by Charles Stewart III, the Kenan Sahin Distinguished Professor of Political Science, and founding director of the non-partisan MIT Election Data and Science Lab.
“WGS.160 is an opportunity to learn about the positive influences scientists have made in addressing the world's biggest challenges,” says Lema. “By bridging science and social issues, this class shows us real, practical ways to embody MIT's mission to serve humankind.”
Kate Pearce ’21 appreciated the chance to learn how scientists have been able to anticipate and influence how their innovations will impact people, rather than simply allowing political and economic systems to determine how their will be used.
A duty to learn
Emily Condon, another senior in the class this fall, also sees WGS.160 as an opportunity to understand her own social responsibilities as a scientist. “With the recent Black Lives Matter movement events and the current political climate, I felt a responsibility to educate myself on what I, as a student of science and engineering, could contribute to ending violence and discrimination against Black communities.”
“The most profound idea that I've learned in this class is that science is not objective,” reflects Condon. “There are always biases about what science implies or what scientific problems are important to study. Providing more spaces for BIPOC scientists to direct the course of research is essential to diversifying perspectives and approaches to science.”
Condon followed the tangible effects of such biases as she studied the material impacts of climate change and its roots as a social as well as a scientific problem. “Underserved communities are disproportionately impacted by the negative effects of climate change and recognizing that can help scientists and engineers direct efforts to aid the people in those communities.”
For Kate Pearce ’21, who is majoring in computer science and biology with a minor in math, the class is a chance to connect her longtime interest in science and activism. It has also given her a greater sense of continued agency over her own technical projects by learning how scientists have been able to anticipate and influence how their innovations will impact people, rather than simply allowing political and economic systems to determine how their work will be used.
The class, in both runs to date, has been composed primarily of MIT undergraduates focused on technical fields. Like their professor, the students come to the Women and Gender Studies program as interdisciplinary thinkers, pursuing a fuller and more nuanced sense of their work’s place in a volatile world. The WGS program is designed to enable just that understanding — drawing on expertise across the Institute, from physicists to philosophers to poets, to provide analytical frameworks for the examination of gender, race, ethnicity, class, and sexuality — and how these aspects of human identity intersect with the life and issues of society.
“The feminist lens of Science Activism really intrigued me,” Pearce added, “especially as applied to how science and social change are motivated and executed.”
"The climate crisis — one of the foremost issues in students’ lives — inspires intense, far-ranging conversations as class members trace the roots of environmentalism, in the U.S. and around the globe, and think together about how best to respond to the multi-faceted crisis."
An active MIT history
Topics in Science Activism take a broad view of recent decades, examining Vietnam War protests by scientists, genetic engineering, and the birth of modern environmentalism in the U.S. There is a special focus on activism at MIT in particular, from the 1960s to present, including the March 4 Movement.
That movement began in 1969, when research and regular teaching at MIT slowed as students, faculty, and staff paused to protest the war in Vietnam and the Institute’s links to the military. Similar themes echo to the present day, with students, faculty, and staff opposing military solutions to international conflicts and broadening MIT’s engagement into social and economic justice.
For Lema, the course has also provided insight into what successful activism looks like in projects like bringing awareness to the climate crisis. “MIT has played an integral role in the history of science activism, and I hope every MIT student gets the opportunity to learn about this history and discover how they can become activists for causes they are passionate about.”
“MIT has played an integral role in the history of science activism," says Eleana Lema '21, "and I hope every MIT student gets to learn about this history and discover how they can become activists for causes that they are passionate about.”
Joining the conversation
Like many of MIT's humanistic courses, Science Activism is discussion-based: students build a foundational understanding from assigned readings and come to the classroom (live or vitual) prepared to debate and discuss. Guest speakers, such as Harvard Medical School Professor Jon Beckwith, who has led a Harvard course focused on activism and the life sciences, broadened and deepened the conversation in the class’s first iteration by adding the perspectives of specialists in different disciplines.
This year the class welcomed via Zoom a number of new guest speakers including Jin In, an advocate for women’s empowerment; Arwa Mboya, a former research assistant at the MIT Media Lab; and Steve Penn, a prominent MIT activist of the 1980s and ‘90s.
As a discussion-based class, the students’ insights are the engine of the class experience, and Professor Bertschinger dedicates the majority of class time to breakout rooms so each student has a chance to thoroughly engage with ideas and questions.
“I have been so impressed by the passion and insight that my peers in this class provide,” says Pearce. “Since people are so engaged and passionate about these topics, the breakout rooms always lead to wonderful discussions and we must struggle to end as the timer ticks down.”
For instance, the climate crisis — one of the foremost issues of the students’ lives — inspires intense, far-ranging conversations as class members trace the roots of environmentalism and think together about how best to respond to the multi-faceted crisis. The students’ experience gives the course an ever-expanding horizon as students’ insights widen discussions around intersectional equality in the sciences and in society.
“It was a great pleasure to teach the class last year; I learned a lot from working with the students and from developing case studies,” reflects Bertschinger. “It’s important for the MIT community to pay attention to the activism on campus — and to help our students develop the wisdom and the capacity to use their voices to the fullest effect in the world.”
Suggested links
Explore the WGS.160/Science Activism class on MIT OpenCourseWare
free coursework for MIT classes
MIT Program in Science, Technology, and Society
Edmund Bertschinger, Professor of Physics
MIT’s Washington Internship program
Union of Concerned Scientists | Founding Document, 1968
Institute Professor Philip Morrison - 1915-2005
Why these 15 scientists marched for climate action
"Scientists from research institutions, non-profits, and the private sector made themselves seen and heard on Sunday, September 21, 2014 when 310,000 people marched through New York City to demand action on climate change."
Power of Protest | March 4 at 50
On March 4, 1969, there was an extraordinary mass meeting of MIT faculty, students and staff to protest MIT’s complicity in the Vietnam War. About the Event
A Scientists Guide to Talking with the Media
from the Union of Concerned Scientists
Story by MIT SHASS Publications
Editorial team: Alison Lanier and Emily Hiestand
Photograph: March for Science and the role of scientific analysis in policy; Washington D.C.., photo by Vlad Tchompalov