Advocate for change with case studies and tested models

 
Gearing Up for Change

Gearing Up for Change: Institutional Reform in Undergraduate Computing Programs

Change agents must understand and consider their organization’s complex and interlocking systems. Plans for change must ensure that subsystems work in harmony with each other to reinforce the envisioned change. This resource outlines the prerequisites to transforming for diversity in undergraduate computing and explains NCWIT’s Extension Services for Undergraduate Programs (ES-UP). Members of the Academic Alliance are entitled to free services from the NCWIT ES-UP in support of their organizational change.

How Can You Re-Engineer Your Undergraduate Program to Increase Women's Representation in Computing? Small Steps Toward Systemic Change (Case Study 1)

How Can You Re-Engineer Your Undergraduate Program to Increase Women's Representation in Computing? Small Steps Toward Systemic Change (Case Study 1)

The socio-educational system a student experiences shapes participation in the major. Altering one element of that system is often not enough to create enduring change. When faculty members are ready to implement organizational innovation, success is more likely if they receive support from institutional leaders, have access to adequate resources, and are able to participate in decision-making about the change.

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.

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.

Pipeline-in-a-Box

Pipeline-in-a-Box: Promoting Advancement of CS/IT Students from Two-Year to Four-Year Institutions

Are you ready to transform the lives of community college students and diversify the computer science (CS) and information technology (IT) student body at four-year institutions? Let Pipeline-in-a-Box: Promoting Advancement of CS/IT Students From Two-Year to Four-Year Institutionsease the way.

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.

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.

View online.