Resources

Promising Practices Catalog

Promising Practices Catalog

This document presents very brief summaries of promising and effective practices identified by NCWIT social scientists and will evolve as more practices are developed and recognized. The practices summarized here aim to 1) Increase the numbers of girls and women in computing. They have goals or benefits related to recruiting, retaining, or advancing the diverse range of females. 2) Make diversity in computing matter to individuals, organizations, and society. They have goals or benefits related to innovation, communication, and talent development.

How Do You Recruit or Retain Women Through Inclusive Pedagogy? Equal Access: Inclusive Strategies for Teaching Students with Disabilities (Case Study 3)

How Do You Recruit or Retain Women Through Inclusive Pedagogy? Equal Access: Inclusive Strategies for Teaching Students with Disabilities (Case Study 3)

Women and minority students are not in computing courses under the same conditions as their white male classmates. Instructional practices offer opportunities to level the playing field and improve the retention of underrepresented students. More students with learning and physical disabilities are in the educational pipeline than ever before. Being aware of the issues, tools, and services for students with disabilities makes it easier for them to learn and for you to teach them.

How Does the Physical Environment Affect Women's Entry and Persistence in Computing? Design Physical Space that Has Broad Appeal (Case Study 1)

How Does the Physical Environment Affect Women's Entry and Persistence in Computing? Design Physical Space that Has Broad Appeal (Case Study 1)

The décor of physical spaces conveys messages about the kinds of people who belong there and the kinds of activities that should be done there. Understanding this influence allows us to actively craft an environment that makes a broad range of people feel welcome in computing. 

How Can Encouragement Increase Persistence in Computing? Encouragement Works in Academic Settings (Case Study 1)

How Can Encouragement Increase Persistence in Computing? Encouragement Works in Academic Settings (Case Study 1)

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. Simple though encouragement is, fewer than half of the faculty members in the average computer science department in the United States say they do it.

Why Should Young People Consider Careers in Information Technology?

Created for school counselors by Counselors for Computing (C4C), a project of the NCWIT K-12 Alliance made possible by the Merck Company Foundation, this card gives adults talking points and additional resources for a conversation with their students, children, and/or other young people. The main message is that IT offers meaningful work, security and high salaries with a bachelor’s degree, and flexibility and variety. Information is provided to address these specific questions: What should you tell a young person about a career in IT?

 

NCWIT Resources: Inspiring Girls to Pursue Careers in Information Technology

The February 2011 National Girls Collaborative Project Webinar, NCWIT Resources: Inspiring Girls to Pursue Careers in Information Technology, is archived at the NGCP website. This webcast highlights free materials and information for attracting more girls and underrepresented groups to computing and information technology and shares how formal and informal educators are using these resources to strengthen programming for girls. An archive of the webinar and the final powerpoint slides are available for viewing:

How can I prepare for a computing major?

How can I prepare for a computing major?

Produced with the Association for Computing Machinery (ACM) and the Computer Science Teachers Association (CSTA), this card gives computing-specific advice for the steps to take on the path from high school to college.

Which computing majors are right for me?

Which computing majors are right for me?

This card, co-branded with ACM, explains how computing interests and talents line up with different undergraduate degrees and the careers that follow.

What are the Important Components of Targeted Recruiting? Change the Gender Composition of High School Computing Courses (Case Study 2)

What Are the Important Components of Targeted Recruiting? Change the Gender Composition of High School Computing Courses (Case Study 2)

Targeted recruiting means planning strategically: set quantifiable goals; identify large, capable audiences; personalize the content of your message; deliver that message in media that are relevant to your audience; and pay attention to people who influence your audience’s decision-making. High school computer science teachers who actively recruit girls and minority students report more students overall and more female students in their courses.

Roadshow-in-a-Box: Capitalizing on Models for Outreach

Roadshow-in-a-Box: Capitalizing on Models for Outreach

Roadshow-in-a-Box is a complete set of resources developed for colleges and universities wanting to establish or enhance their roadshow outreach programs. It draws on the wisdom and practices of a variety of successful roadshow programs that focus on recruiting for diversity and put trained student presenters in a leading role. The Box includes program advice, templates, and sample materials to aid your efforts in every aspect of a sustainable roadshow program. Components include: Controlled Message, Support, Ongoing School Partnerships, Trained Student Presenters, Program Activities, and Evaluation and Tracking.

Moving Beyond Computer Literacy: Why schools should teach computer science

Moving Beyond Computer Literacy: Why schools should teach computer science

Computer Science — not computer literacy — underlies most innovation today, yet the majority of U.S. schools require only that students use computers. Computer science teaches students design, logical reasoning, and problem solving — all valuable well beyond the computer science classroom. This resource provides information about the value of computer science curriculum for students, educators, local and national economies as well as global society. It offers steps schools can take to successfully incorporate computer science education.

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Offer Computing Workshops and Camps: They Benefit Both Students and the Teachers Who Offer Them

This resource for computer science teachers offers ideas for partnering, existing curriculum, and materials for implementation. Download the PDF, read the HTML version below, or use these additional resources.

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