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Computer science education is important for preparing students for the future of work. By teaching students about computer science, schools work to fill an inadequate pipeline of computer science graduates and workers, enhance this profession with a focus on equity, build digital skills that are expected of workers in nearly any profession and cultivate adaptability by future-proofing students’ skill sets.

5 Reasons Computer Science Education is Important

In this article, we’ll dive into the different facets of the importance of computer science education.

1. Building a Computer Science Pipeline

One reason computer science education is important is to build an adequate computer science pipeline. According to a CNBC report, the end of 2021 saw over 918,000 vacancies in computer science jobs. This number is expected to increase to over 1.2 million by 2026, according to the U.S. Bureau of Labor Statistics, with the projected growth expected to be 25% between 2021 and 2031.

There are steep penalties to the deficits in available computer science workers, including slowed economic growth, business stagnation, national security challenges and unrealized lifetime earning potential.

For example, some estimates show that the U.S. is losing a five-billion-dollar opportunity for economic growth. In addition, employers expect the cost of recruitment to be three to four times the annual salary – meaning computer science positions, which have a median salary of $109k/year, can cost over $300k in related costs. (See this article by SHRM for a breakdown of these projected costs). National security is also affected by this skills gap, especially our cybersecurity.

Arguably the most important, however, is that salaries for computer science are over double the national average. Without having access to learning that drives students toward computer science, they are unable to benefit from these higher paying positions.

2. Increasing Students’ Future Career Readiness

In an equip interview with Stacy Lane, the Director of Coding Programs at the Marquette Tech District, she explained the meaning of “future ready” in terms of careers: “Being future ready means having the critical thinking and problem-solving skills needed to be successful at whatever jobs develop so that today’s students can support themselves and their families with dignity in the workplace someday.”

Computer science elevates students’ career prospects and their lifetime earning potential, empowering them to uplift and support their families. These salaries then fuel the economy and can even encourage tech investment into previously overlooked communities.

3. Boosting Equity in Computer Science

As we are talking about building an adequate pipeline of students to fill vacant computer science jobs, it’s also necessary to focus on cultivating equity in the pipeline.

Currently, women earn 18 percent of computer science degrees, and estimates predict that by 2025, women will hold only 20 percent of all computer science positions.

Minority groups are also underrepresented in computer science majors with only 10 percent and 12 percent of all degrees going to Black and Latinx students, respectively. And in the field, only 12 percent and 16 percent of all workers are Black and Latinx.

There is no single cause to this trend, but according to a report commissioned by Google, females, blacks and Latinos are more likely to lack access and exposure to computer science. In addition, these groups also face long-standing social barriers that skew self-perception and whether they feel a sense of belonging in the field, which often halts their interest and advancement.

Why Does Representation Matters?

Pipeline Build: From a purely numbers standpoint, the more students who are exposed and encouraged to pursue computer science will help to temper the insufficient computer science pipeline.

Technology Accessibility: The design and function of technology is biased toward those developing it. For example, speech recognition software with smart speakers is more likely to understand men than women, and the same is true for people with non-American accents. Another example is that facial recognition software repeatedly fails to recognize women and people of color, which again comes down to the gender and race of those designing it. 

Wealth Gaps: Finally, greater equity in the computer science workforce will also help to close gender and racial wealth gaps by enabling these groups to access higher incomes that empower them, their family and their community.

To remedy these divides, it’s essential that computer science education starts young. College board research found that the likelihood women will major in computer science increases tenfold when they are enrolled in AP Computer Science, and Black and Latinx students are seven times more likely to major in it when having enrolled in advanced high school courses.

Moreover, early, continual, and intentional exposure is essential to help students reach these more advanced computer science courses that serve as a launchpad into computer science higher education.

To do so, schools need to overcome the middle school cliff, which is where female and minority students often drop out of STEM courses. Instruction must start at a young age to break through these stereotypes and help overcome this notorious hurdle that prevents students from delving into more advanced classes and building skills in computer science.

4. Developing Computer Science Skills

The need for computer science education extends well beyond directing students toward degrees in computer science. Future readiness also comes down to computer science skills used across a variety of domains that fall outside of the computer science field.

Exhibit A

A report by Burning Glass Technologies assessed the five fastest-growing and highest-paying job domains and determined that 62 percent are computer science related, but only 18 percent of these require a computer science degree. The relevant skills in these domains include programming, web development, robotics and data analysis.

Exhibit B

Researchers at LinkedIn analyzed job listings to identify the most in-demand skills. Their findings noted the necessity of computer science and digital skills for career readiness outside of the computer science field; top skills include application use and flexibility, development and digital production, computing, data analysis, digital security and media literacy.

Exhibit C

This trend was also confirmed in a separate research study by Mckinsey & Company, which found that the fastest accelerating career readiness skills needed between now and 2030 are digital skills. According to the study, there will be a 55 percent increase in demand for technological skills.

Together, these studies affirm that workers are expected to have both experience with computer science and well-developed digital skills even in roles outside of the computer science realm.

As computer science becomes so deeply inseparable from our work, this skillset is essential to career readiness across a multitude of industries and job functions. With well-developed computer science and digital skills, students are more competitive in the job market for high-paying and quickly growing job domains.

5. Cultivating Adaptability

Rapid technology advances also cause future readiness to include the ability to constantly re-skill and upskill to keep up with change.

For example, a Dell Technology report found that 85 percent of forecasted jobs for 2030 still do not exist yet, largely because technology is expanding so rapidly. Similarly, a Deloitte report finds that the half-life of skills is now five years, and companies will need to invest in continual professional development for workers.

What this signifies is that students are preparing for jobs that are yet to be imagined. When they graduate, they need to know how to grow into the roles available to them. Future-ready skills now entail knowing how to learn, adapt and embrace change and ambiguity, especially in the face of technology advancements. Computer science is critical to addressing this.

Final Thoughts

Computer science is more than just a set of digital skills; it is a mindset founded on problem solving, critical and creative thinking and metacognition. Computer science teaches students how to think, learn and grow.

With the knowledge of how programming languages work, how computing systems operate and how networks drive connectivity, students understand technology and its adaptations and advancements, as well as how to develop, troubleshoot, improve and use it. Whether in their home, school, or work life, students need foundational computer science skills to continuously grow and adapt throughout their lifetime. Staff Writers Team

Staff Writers

Founded in 1999, provides educators with solutions to prepare their students with critical digital skills. Our web-based curriculum for grades K-12 engages students as they learn keyboarding, online safety, applied productivity tools, computational thinking, coding and more.

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