In the nearly two years since the U.S. Supreme Court struck down race-conscious admissions, there have been repeated calls for universities to address the resulting decline in diversity by recruiting from community colleges.

On the surface, encouraging students to transfer from two-year colleges sounds like a terrific idea. Community colleges enroll large numbers of students who are low-income or whose parents did not attend college. Black and Latino students disproportionately start college at these institutions, whose mission for more than 50 years has been to expand access to higher education.

But while community colleges should be an avenue into high-value STEM degrees for students from low-income backgrounds and minoritized students, the reality is sobering: Just 2 percent of students who begin at a community college earn a STEM bachelor’s degree within six years, our recent study of transfer experiences in California found.

There are too many roadblocks in their way, leaving the path to STEM degrees for community college students incredibly narrow. A key barrier is the complexity of the process of transferring from a community college to a four-year institution.

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Many community college students who want to transfer and major in a STEM field must contend with three major obstacles in the transfer process:

1. A maze of inconsistent and often opaque math requirements. We found that a student considering three or four prospective university campuses might have to take three or four different math classes just to meet a single math requirement in a given major. One campus might expect a transfer student majoring in business to take calculus, while another might ask for business calculus. Still another might strongly recommend a “calculus for life sciences” course. And sometimes an institution’s website might list different requirements than a statewide transfer site. Such inconsistencies can lengthen students’ times to degrees — especially in STEM majors, which may require five- or six-course math sequences before transfer.

2. Underlying math anxiety. Many students interviewed for the study told us that they had internalized negative comments from teachers, advisers and peers about their academic ability, particularly in math. This uncertainty contributed to feelings of anxiety about completing their math courses. Their predicament is especially troubling given concerns that required courses may not contribute to success in specific fields.

3. Course scheduling conflicts that slow students’ progress. Two required courses may meet on the same day and time, for example, or a required course could be scheduled at a time that conflicts with a student’s work schedule. In interviews, we also heard that course enrollment caps and sequential pathways in which certain courses are offered only once a year too often lengthen the time to degree for students.

To help, rather than hinder, STEM students’ progress toward their college and professional goals, the transfer process needs to change significantly. First and foremost, universities need to send clear and consistent signals about what hoops community college students should be jumping through in order to transfer.

A student applying to three prospective campuses, for example, should not have to meet separate sets of requirements for each.

Community colleges and universities should also prioritize active learning strategies and proven supports to combat math anxiety. These may include providing professional learning for instructors to help them make math courses more engaging and to foster a sense of belonging. Training for counselors to advise students on requirements for STEM pathways is also important.

Community colleges must make their course schedules more student-centered, by offering evening and weekend courses and ensuring that courses required for specific degrees are not scheduled at overlapping times. They should also help students with unavoidable scheduling conflicts take comparable required courses at other colleges.

At the state level, it’s critical to adopt goals for transfer participation and completion (including STEM-specific goals) as well as comprehensive and transparent statewide agreements for math requirements by major.

States should also provide transfer planning tools that provide accurate and up-to-date information. For example, the AI Transfer and Articulation Infrastructure Network, led by University of California, Berkeley researchers, is using artificial intelligence technology to help institutions more efficiently identify which community college courses meet university requirements. More effective tools will increase transparency without requiring students and counselors to navigate complex and varied transfer requirements on their own. As it stands, complex, confusing and opaque math requirements limit transfer opportunities for community college students seeking STEM degrees, instead of expanding them.

We must untangle the transfer process, smooth pathways to high-value degrees and ensure that every student has a clear, unobstructed opportunity to pursue an education that will set them up for success.

Pamela Burdman is executive director of Just Equations, a California-based policy institute focused on reconceptualizing the role of math in education equity. Alexis Robin Hale is a research fellow at Just Equations and a graduate student at UCLA in Social Sciences and Comparative Education.

Contact the opinion editor at [email protected].

This story about community college transfers was produced by The Hechinger Report, a nonprofit, independent news organization focused on inequality and innovation in education. Sign up for Hechinger’s weekly newsletter.