Mind the (Vote) Gap: Can We Get More STEM Students to the Polls?
An "I Voted" sticker.
This article is part of the magazine, "The Future of Science In America: The Election Issue," co-published by LeapsMag, the Aspen Institute Science & Society Program, and GOOD.
By the numbers, American college students who major in STEM disciplines—science, technology, engineering, and math—aren't big on voting. In fact, recent research suggests they're the least likely group of students to head to the ballot box, even as American political leaders cast doubt on the very kinds of expertise those students are developing on campus.
Worried educators say it's time for a rethink of STEM education at the college level. Armed with success stories and model courses, educators are pushing for colleagues to add relevance to STEM education—and instill a sense of civic duty—by bringing the outside world in.
"It's a matter of what's in the curriculum, how faculty spend their time. There are opportunities to weave [policy] within the curriculum," said Nancy L. Thomas, director of Tufts University's Institute for Democracy & Higher Education.
The most recent student voting numbers come from the 2018 mid-term election, when a national Democratic wave brought voters to the polls. Just over a third of STEM college students surveyed said they voted, the lowest percentage of six subject areas, according to a report from the institute at Tufts. Students in the education, social sciences, and humanities fields had the highest voting rates at 47%, 41%, and 39%, respectively.
Students across the board were much less engaged in the mid-year election of 2014, when just 28% of education students surveyed said they voted. STEM students again stood at the rear, with just 16% voting.
(The report analyzed whether more than 10 million college students at 1,031 U.S. institutions voted in 2014 and 2018. At the request of this magazine, the institute at Tufts removed non-U.S. resident students—who can't vote—from the findings to see if the results changed. Voting rates among STEM students remained among the lowest.)
Why aren't STEM students engaged in politics? "I have no reason to think that science students don't care about public policy issues," Tufts University's Thomas said. Instead, she believes that colleges fail to inspire STEM students to think beyond lectures and homework.
Enter the SENCER project—Science Education for New Civic Engagements and Responsibilities. Since 2001, the project has taught thousands of educators and students how to connect science and citizenship.
The roots of the project go back to 1990, when Rutgers University microbiologist Monica Devanas was assigned to teach a general-education class called "Biomedical Issues of AIDS." She decided to expand the curriculum to encompass insights about a wide range of societal issues. Guest speakers from the community, including a man with a grim diagnosis, talked about the disease and its spread. And Devanas's colleagues in a wide variety of disciplines offered course sections about AIDS and its role in areas such as literature, prisons and law.
"I always tried to make a connection, hoping to create scientifically engaged citizens by explaining the science to them in ways that they could understand."
When she first taught the class, 450 students signed up instead of the expected 100. Devanas, who'd only ever taught a few dozen students with a blackboard, suddenly had to figure out how to teach hundreds at once with the standard technology of the time: an overhead projector.
Devanas, who taught the hugely popular class for the next 18 years, said the course worked because it linked the AIDS epidemic, a hot topic at the time, to the outer world beyond immune cells and test tubes. "You really need to make it very personal and relevant. When you talk about treatment for AIDS or the cost of drugs: Who pays for this?" she said. "I always tried to make a connection, hoping to create scientifically engaged citizens by explaining the science to them in ways that they could understand."
How can other educators learn to create compelling courses? The SENCER website offers dozens of model classes for college and K–12 educators, all with the aim of making STEM classes relevant. An engineering course, for example, could expand a discussion about the nuts and bolts of automated vehicles into a conversation about whether the cars are a good idea in the first place, said Eliza J. Reilly, executive director of the National Center for Science and Civic Engagement, where SENCER is based.
SENCER, which is government-funded, holds regular conferences and has conducted research that supports the effectiveness of its programs. "This is an educational and intellectual project rather than a get-out-the-vote project. It's not intended to create activists. Instead, it's intended to help students understand that they have power as citizens," Reilly said.
What about long-term change? Will inspiring college students to engage with politics turn them into lifetime voters? Reilly said she's not aware of any research into whether STEM students continue to vote at lower levels after they graduate. That means there's no way to know if limited civic engagement in college translates to lifelong apathy. We also don't know if lower voting rates in college may help explain why few people with STEM backgrounds run for higher office.
There's another big unknown: If more people with STEM degrees vote, will they actually support fact-based policies and candidates who listen to science? The answer is not as obvious as it may appear. At Rutgers, professor Devanas pointed to the research of Yale University law/psychology professor Dan Kahan, who found that the most scientifically literate people in the U.S. also happen to be among those most polarized over climate change. In other words, a scientific mind may not necessarily translate to a pro-science vote.
Regardless of the ultimate choices that STEM students make at the ballot box, advocates will keep encouraging educators to connect science to the world beyond the classroom. As Tufts University's Thomas explained, "it just takes a lot of creativity and will."
[Editor's Note: To read other articles in this special magazine issue, visit the beautifully designed e-reader version.]
Here's how one doctor overcame extraordinary odds to help create the birth control pill
Dr. Percy Julian had so many personal and professional obstacles throughout his life, it’s amazing he was able to accomplish anything at all. But this hidden figure not only overcame these incredible obstacles, he also laid the foundation for the creation of the birth control pill.
Julian’s first obstacle was growing up in the Jim Crow-era south in the early part of the twentieth century, where racial segregation kept many African-Americans out of schools, libraries, parks, restaurants, and more. Despite limited opportunities and education, Julian was accepted to DePauw University in Indiana, where he majored in chemistry. But in college, Julian encountered another obstacle: he wasn’t allowed to stay in DePauw’s student housing because of segregation. Julian found lodging in an off-campus boarding house that refused to serve him meals. To pay for his room, board, and food, Julian waited tables and fired furnaces while he studied chemistry full-time. Incredibly, he graduated in 1920 as valedictorian of his class.
After graduation, Julian landed a fellowship at Harvard University to study chemistry—but here, Julian ran into yet another obstacle. Harvard thought that white students would resent being taught by Julian, an African-American man, so they withdrew his teaching assistantship. Julian instead decided to complete his PhD at the University of Vienna in Austria. When he did, he became one of the first African Americans to ever receive a PhD in chemistry.
Julian received offers for professorships, fellowships, and jobs throughout the 1930s, due to his impressive qualifications—but these offers were almost always revoked when schools or potential employers found out Julian was black. In one instance, Julian was offered a job at the Institute of Paper Chemistory in Appleton, Wisconsin—but Appleton, like many cities in the United States at the time, was known as a “sundown town,” which meant that black people weren’t allowed to be there after dark. As a result, Julian lost the job.
During this time, Julian became an expert at synthesis, which is the process of turning one substance into another through a series of planned chemical reactions. Julian synthesized a plant compound called physostigmine, which would later become a treatment for an eye disease called glaucoma.
In 1936, Julian was finally able to land—and keep—a job at Glidden, and there he found a way to extract soybean protein. This was used to produce a fire-retardant foam used in fire extinguishers to smother oil and gasoline fires aboard ships and aircraft carriers, and it ended up saving the lives of thousands of soldiers during World War II.
At Glidden, Julian found a way to synthesize human sex hormones such as progesterone, estrogen, and testosterone, from plants. This was a hugely profitable discovery for his company—but it also meant that clinicians now had huge quantities of these hormones, making hormone therapy cheaper and easier to come by. His work also laid the foundation for the creation of hormonal birth control: Without the ability to synthesize these hormones, hormonal birth control would not exist.
Julian left Glidden in the 1950s and formed his own company, called Julian Laboratories, outside of Chicago, where he manufactured steroids and conducted his own research. The company turned profitable within a year, but even so Julian’s obstacles weren’t over. In 1950 and 1951, Julian’s home was firebombed and attacked with dynamite, with his family inside. Julian often had to sit out on the front porch of his home with a shotgun to protect his family from violence.
But despite years of racism and violence, Julian’s story has a happy ending. Julian’s family was eventually welcomed into the neighborhood and protected from future attacks (Julian’s daughter lives there to this day). Julian then became one of the country’s first black millionaires when he sold his company in the 1960s.
When Julian passed away at the age of 76, he had more than 130 chemical patents to his name and left behind a body of work that benefits people to this day.
Therapies for Healthy Aging with Dr. Alexandra Bause
My guest today is Dr. Alexandra Bause, a biologist who has dedicated her career to advancing health, medicine and healthier human lifespans. Dr. Bause co-founded a company called Apollo Health Ventures in 2017. Currently a venture partner at Apollo, she's immersed in the discoveries underway in Apollo’s Venture Lab while the company focuses on assembling a team of investors to support progress. Dr. Bause and Apollo Health Ventures say that biotech is at “an inflection point” and is set to become a driver of important change and economic value.
Previously, Dr. Bause worked at the Boston Consulting Group in its healthcare practice specializing in biopharma strategy, among other priorities
She did her PhD studies at Harvard Medical School focusing on molecular mechanisms that contribute to cellular aging, and she’s also a trained pharmacist
In the episode, we talk about the present and future of therapeutics that could increase people’s spans of health, the benefits of certain lifestyle practice, the best use of electronic wearables for these purposes, and much more.
Dr. Bause is at the forefront of developing interventions that target the aging process with the aim of ensuring that all of us can have healthier, more productive lifespans.
