Resources

How Do You Introduce Computing in an Engaging Way? Scalable Game Design for Middle School (Case Study 6)

How Do You Introduce Computing in an Engaging Way? Scalable Game Design for Middle School (Case Study 6)

Engage students not already drawn to computing by creating academic and social environments where these students feel like they belong. Students respond positively to solving real-life problems that draw on their existing knowledge and interests and that involve collaboration in hands-on projects. The middle school computing curriculum in Colorado’s Boulder Valley School District uses Scalable Game Design to introduce computer programming.

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Unconscious Bias and Why It Matters For Women and Tech

Learn about some of the hidden barriers that often prevent technical organizations from hiring and retaining top talent. This video will take you through a series of engaging, interactive experiments that introduce the concept of unconscious bias and explain why this information is vital for technical companies to understand. The video will also point to free NCWIT resources you can use to address these hidden barriers in order to better attract and retain a diverse workforce that will drive future innovation.

Girls in IT: The Facts (report)

Girls in IT: The Facts

Girls in IT: The Facts, sponsored by NCWIT's K-12 Alliance, is a synthesis of the existing literature on increasing girls’ participation in computing. It aims to bring together this latest research so that readers can gain a clearer and more coherent picture of 1) the current state of affairs for girls in computing, 2) the key barriers to increasing girls’ participation in these fields, and 3) promising practices for addressing these barriers.

NCWIT PockIT Facts Logo

NCWIT PockIT Facts (mobile app)

NCWIT PockIT Facts delivers statistics about women and girls in technology as shareable infographics. Each fact links to full reports available at the NCWIT website. Discover resources and best practices for improving gender diversity in technology in schools, universities, and businesses.

Search the Apple App Store or the Android Apps on Google Play for "NCWIT" or "PockIT."

 

 

How Can Reducing Unconscious Bias Increase Women's Success in IT? Avoiding Gender Bias in Recruitment/Selection Processes (Case Study 2)

How Can Reducing Unconscious Bias Increase Women's Success in IT? Avoiding Gender Bias in Recruitment/Selection Processes (Case Study 2)

Research shows that even individuals committed to equality harbor unconscious biases that impact everyday decisions and interactions. In the IT workplace, unconscious gender bias can mislead employers, both male and female, to make inaccurate judgments in hiring, performance reviews, and promotion. This case study focuses on the profound effect unconscious bias can have on the recruitment and selection process — from crafting and distribution of job postings to interviewing and hiring. Steps are offered for overcoming this bias.

Mentoring-in-a-Box: Women Faculty in Computing

Mentoring-in-a-Box: Women Faculty in Computing

Women in scientific disciplines face challenges that range from institutionalized bias to differences in communication styles and a lack of female role models. Mentoring-in-a-Box: Women Faculty in Computing can help you start and sustain a successful mentoring relationship.

Key Practices for Retaining Undergraduates in Computing

Key Practices for Retaining Undergraduates in Computing

Based in research on women’s participation in computing, this document outlines a model of the system of undergraduate experiences that affect retention in undergraduate programs. To create and sustain excellence through diversity, effective practices must be mainstreamed into the experiences of all students, not just those of women or minorities.

Strategic Planning for Recruiting Women into Undergraduate Computing: High Yield in the Short Term

Strategic Planning for Recruiting Women into Undergraduate Computing: High Yield in the Short Term

This workbook includes examples, guidance, and templates for developing a strategic recruitment plan to increase participation of females in undergraduate computing.

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A Lucrative, Secure Computing Career: Community College Can Take You There

This poster highlights the importance of community colleges to educating the computing workforce. It connects various pathways into community colleges, outlines some of key components of the community college experience, and details some of the high paying technical careers these students will be working toward. The poster was developed in collaboration with the Academic Alliance's Community College Subcommittee.

Strategic Planning for Retaining Women in Undergraduate Computing

Strategic Planning for Retaining Women in Undergraduate Computing

This workbook presents some guidelines for strategically planning a multi-pronged approach to retain females — and all students — in undergraduate computing programs of study.

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What is the Impact of Gender Diversity on Technology Business Performance? Research Summary

This report provides a comprehensive review of current research on gender-diverse teams. Despite their challenges, they demonstrate superior productivity and financial performance compared with homogenous teams.
 
In addition to summarizing recent research on financial performance, team dynamics, and organizational effectiveness, this summary also reviews strategies to maximize the potential benefits of gender diversity on technical teams.
 
 
Top 10 Ways to Retain Students in Computing

Top 10 Ways You Can Retain Students in Computing

This brief, easy-to-share resource highlights the top ten evidence-based ways to retain undergraduate students in computing.

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Top 10 Ways to Engage Underrepresented Students in Computing

These tips will help you to engage students from historically underrepresented populations (females, men and women from racial/ethnic minority groups) in your computing courses. These ideas and examples are drawn from theory and research conducted by social scientists who study issues related to diversity in computing. Methods range from encouraging words to inclusive classroom environments.

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How Can Encouragement Increase Persistence in Computing? Encouragement is Effective in Work Settings (Case Study 2)

How Can Encouragement Increase Persistence in Computing? Encouragement Is Effective in Work Settings (Case Study 2)

Encouragement increases self-efficacy, which is the belief in one’s ability to successfully perform a task. Because we are more likely to engage in tasks that we believe we can perform successfully, encouragement may be especially useful for attracting women to male-stereotyped fields such as computing. Encouragement is a powerful tool for increasing employee confidence and engagement, but it seems to be underutilized in the workforce. The example in this case study illustrates the profound positive impact a simple encouraging conversation can have on a career.

EngageCSEdu

EngageCSEdu (website)

EngageCSEdu is a website that encourages the development of more inclusive learning environments in introductory computer science (CS) courses by helping faculty to easily share their most effective retention practices. EngageCSEdu offers thousands of projects, homework assignments, and other course materials that are searchable by computer science knowledge area, programming language, and more. All course materials are developed by faculty members nationwide and evaluated for quality by an interdisciplinary team of computer scientists, learning scientists, and diversity experts.

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