Results for VPGE::Interdisciplinary

The excitement around social innovation and entrepreneurship has spawned numerous startups focused on tackling world problems, particularly in the fields of education and health. The best social ventures are launched with careful consideration paid to research, design, and efficacy. This course offers students an immersive educational experience into understanding how to effectively develop, evaluate, and scale social ventures. Students will also get a rare "behind-the-scenes" glimpse at the complex ethical dilemmas social entrepreneurs have tackled to navigate the odds. Partnered with TeachAids, a global award-winning nonprofit (scaled to 82 countries), this course introduces students to the major principles of research-based design and integrates instruction supported by several game-changing social leaders. Open to both undergraduate and graduate students, it culminates in a formal presentation to an interdisciplinary panel of diverse Silicon Valley leaders. (Cardinal Course certified by the Haas Center)

For graduate and undergraduate students interested in the natural sciences and the Spanish language. Students will acquire the ability to communicate in Spanish using scientific language and will enhance their ability to read scientific literature written in Spanish. Emphasis on the development of science in Spanish-speaking countries or regions. Course is conducted in Spanish and intended for students pursuing degrees in the sciences, particularly disciplines such as ecology, environmental science, sustainability, resource management, anthropology, and archeology.

Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the world present breakthroughs and endeavors that cut across core disciplines. Pre-seminars introduce basic concepts and background for non-experts. Registered students attend all pre-seminars; others welcome. See http://biox.stanford.edu/courses/459.html. Recommended: basic mathematics, biology, chemistry, and physics.

Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the world present breakthroughs and endeavors that cut across core disciplines. Pre-seminars introduce basic concepts and background for non-experts. Registered students attend all pre-seminars; others welcome. See http://biox.stanford.edu/courses/459.html. Recommended: basic mathematics, biology, chemistry, and physics.

Health care is facing significant cross-industry challenges and opportunities created by a number of factors, including the increasing need for improved access to affordable, high-quality care; growing demand from consumers for greater control of their health and health data; the shift in focus from sick care to prevention and health optimization; aging demographics and the increased burden of chronic conditions; and new emphasis on real-world, measurable health outcomes for individuals and populations. Moreover, the delivery of health information and services is no longer tied to traditional brick and mortar hospitals and clinics: it has increasingly become "mobile," enabled by apps, sensors, wearables. Simultaneously, it has been augmented and often revolutionized by emerging digital and information technologies, as well as by the data that these technologies generate. This multifactorial transformation presents opportunities for innovation across the entire cycle of care, from wellness, to acute and chronic diseases, to care at the end of life. But how does one approach innovation in digital health to address these health care challenges while ensuring the greatest chance of success? At Stanford Biodesign, we believe that innovation is a process that can be learned, practiced, and perfected; and, it starts with an unmet need. In Biodesign for Digital Health, students will learn about digital health and the Biodesign needs-driven innovation process from over 50 industry experts. Over the course of 10weeks, these speakers will join the teaching team in a dynamic classroom environment that includes lectures, panel discussions, and breakout sessions. These experts represent startups, corporations, venture capital firms, accelerators, research labs, healthcare providers, and more. Student teams will take actual digital and mobile health challenges and learn how to apply Biodesign innovation principles to research and evaluate needs, ideate solutions, and objectively assess them against key criteria for satisfying the needs. Teams take a hands-on approach with the support of need coaches and other mentors. On the final day of class, teams present to a panel of digital health experts and compete for project extension funding. Friday section will be used for team projects and for scheduled workshops. Limited enrollment for this course. Students should submit their application online via: https://stanforduniversity.qualtrics.com/jfe/form/SV_dnY6nvUXMYeILkO

In this two-quarter course series ( BIOE 374A/B, MED 272A/B, ME 368A/B, OIT 384/5), multidisciplinary student teams identify real-world unmet healthcare needs, invent new health technologies to address them, and plan for their implementation into patient care. During the first quarter (winter), students select and characterize an important unmet healthcare problem, validate it through primary interviews and secondary research, and then brainstorm and screen initial technology-based solutions. In the second quarter (spring), teams select a lead solution and move it toward the market through prototyping, technical re-risking, strategies to address healthcare-specific requirements (regulation, reimbursement), and business planning. Final presentations in winter and spring are made to a panel of prominent health technology experts and/or investors. Class sessions include faculty-led instruction and case studies, coaching sessions by industry specialists, expert guest lecturers, and interactive team meetings. Enrollment is by application only, and students are required to participate in both quarters of the course. Visit http://biodesign.stanford.edu/programs/stanford-courses/biodesign-innovation.html to access the application, examples of past projects, and student testimonials. More information about Stanford Biodesign, which has led to the creation of 50 venture-backed healthcare companies and has helped hundreds of student launch health technology careers, can be found at http://biodesign.stanford.edu/.

In this two-quarter course, multidisciplinary teams identify real unmet healthcare needs, invent health technologies to address them, and plan for their implementation into patient care. In second quarter, teams select a lead solution to advance through technical prototyping, strategies to address healthcare-specific requirements (IP, regulation, reimbursement), and business planning. Class sessions include faculty-led instruction, case studies, coaching sessions by experts, guest lecturers, and interactive team meetings. Enrollment is by application. Students are required to take both quarters of the course.

Startup Garage is an intensive, hands-on, project-based course where students apply human-centric design, lean startup methodology, and the Business Model Canvas to conceive, design, and field-test new business concepts that address real world needs. Teams get out of the building and interact directly with users, industry participants, and advisors to deeply understand one or more unmet customer needs. They proceed to design, prototype, and test their proposed products or services and a business model. Teams working on impact-focused ventures will apply the same methodology to address the needs of their beneficiaries. Students develop entrepreneurial skills as they learn critical, cutting-edge techniques about launching a venture. The course is offered by the Graduate School of Business. PREREQUISITE: Team application required. See details and apply at http://startupgarage.stanford.edu/details (login required).

In this intensive, hands-on project based course, teams continue to develop their ventures based on a user need that they validated in preparation for the course. They build out more elaborate versions of their prototypes and Business Model Canvas; test hypotheses about the product/service, business model, value proposition, customer acquisition, revenue generation, and fundraising; and deliver a seed round financing pitch to a panel of investors. Students develop entrepreneurial skills as they 1) Get out of the building and gather insights from users, investors, and advisors, 2) Make decisions about pivoting, 3) Work through their operating plans and unit economics, 4) Test go-to-market strategies, 5) Consider equity splits, 6) Learn term sheet negotiations, and 7) Practice their pitches. PREREQUISITE: SUSTAIN 376 or a team application. See details and apply at http://startupgarage.stanford.edu/details (login required).

Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the world present breakthroughs and endeavors that cut across core disciplines. Pre-seminars introduce basic concepts and background for non-experts. Registered students attend all pre-seminars; others welcome. See http://biox.stanford.edu/courses/459.html. Recommended: basic mathematics, biology, chemistry, and physics.

Tailored lectures and case studies lead to a practical final project. Leaders from local firms and companies will help you gain insight into the biotechnology industry, the skills and experiences necessary to succeed, and the various roles and responsibilities within the industry. Coursework is divided into 4 sections: Introductory Material: The first segment consists of two lectures and introduces the biotechnology company life cycle along with introductory concepts in finance. Venture Capital and Private Equity: The second segment consists of three lectures devoted to venture capital finance and private equity where students will learn the basic mechanics of raising capital. nPublic Finance: The third segment consists of the interpretation of financial statements, construction of company forecasts, and evaluating business value from such projections. Final Project: The final lecture will conclude with student presentations on their final projects.

Through tailored lecture, case study and a practical final project, Biosciences and interdisciplinary sciences students and trainees will learn how to apply the skills they acquired in their academic training to a career in Patent Prosecution and related fields. Taught by field and faculty experts, this is your opportunity to network with IP law representatives and to gain hands-on experience in a new career of choice option. Topics include: applying for positions, the importance of IP protection, licensing, overview of the patent process, drafting applications and litigation.

This course is designed for students who are interested in learning about consulting including tools and techniques to gain a consulting mindset. The course requires students to complete short assignments, participate in classroom discussions, and a team project. Students will have the opportunity to understand the consulting process right from sourcing and starting engagements to closure and follow up engagements. Further, with the help of some practical execution in the classroom, students will also learn how to manage client needs and situations, articulating client needs in a succinct proposal, planning and executing consulting assignments, managing client interactions and in the process, learn to leverage some common frameworks for consulting.

Through tailored lecture, case study, and a practical final project, academic and professional leaders will help you gain insight into the science communications and media industry. This course assists students in developing the communication skills necessary for post-training and internship success in a science communications/media field and it provides an understanding of the scope of career opportunities within the science communications sector, focusing on the development, organization, and management issues specific to it. Through connections with alumni, faculty, and other practitioners from a variety of fields and organizations, as well as hands-on experience with the techniques and methodologies most useful on the job market, students will define their own professional goals, increase their awareness of industry terminology and theories, and hone expertise in the areas of: publishing, editing, workflow, ethics, trends, principles of effective scholarly/news writing, interviewing techniques, and media/website management.

Through tailored lecture, case study, and a practical final project, academic and professional leaders will help you gain insight into the science policy industry and the skills necessary to succeed within the various positions and levels available within it. This course aims to demystify the U.S. science policy process and teach both how policy affects scientific funding and administration, and how science is used to create and influence the creation of law and policy in the U.S. This course will be taught in two parts. The first part outlines the basic structure of the US government, and fundamental issues in US political system, and refreshes students who haven't encountered basic civics since high school, this introductory material will cover the structure of the US government, the governance of key agencies, broad concepts of federalism and shared federal and power, the political party system, and a brief and general modern history of the role of science in policy making. The second part will review four key concepts: 1) who's who and how they work. 2) The policy making process and the role of science in creating policy. 3) Government funding science. 4) Issues, theories and trends in science and policy. This final section will review a variety of cross-cutting issues in science policy development, including innovation theory, the role of uncertainty, and a discussion of the government's role as a developer and repository of science data, and other current topics in the relationship between science and government.

Public and private sources of finance for large, complex, capital-intensive projects in developed and developing countries. Benefits and disadvantages, major participants, risk sharing, and challenges of project finance in emerging markets. Financial, economic, political, cultural, and technological elements that affect project structures, processes, and outcomes. Case studies. Limited enrollment.

This interdisciplinary course integrates the legal, scientific, and policy dimensions of how we characterize and manage resource use and allocation along the California coast. We will use this geographic setting as the vehicle for exploring more generally how agencies, legislatures, and courts resolve resource-use conflicts and the role that scientific information and uncertainty play in the process. Our focus will be on the land-sea interface as we explore contemporary coastal land-use and marine resource decision-making, including coastal pollution, public health, ecosystem management; public access; private development; local community and state infrastructure; natural systems and significant threats; resource extraction; and conservation, mitigation and restoration. Students will learn the fundamental physics, chemistry, and biology of the coastal zone, tools for exploring data collected in the coastal ocean, and the institutional framework that shapes public and private decisions affecting coastal resources. There will be 3 to 4 written assignments addressing policy and science issues during the quarter, as well as a take-home final assignment. Special Instructions: In-class work and discussion is often done in interdisciplinary teams of students from the School of Law, the School of Engineering, the School of Humanities and Sciences, and the Doerr School of Sustainability. Students are expected to participate in class discussion and field trips. Elements used in grading: Participation, including class session and field trip attendance, writing and quantitative assignments. Cross-listed with Civil & Environmental Engineering ( CEE 175A/275A) and Law ( LAW 2510). Open to graduate students and to advanced undergraduates with instructor permission. Enrollment limited.

Open to seniors and graduate students interested in the creation of new ventures and entrepreneurship in engineering and science intensive industries such as chemical, energy, materials, bioengineering, environmental, clean-tech, pharmaceuticals, medical, and biotechnology. Exploration of the dynamics, complexity, and challenges that define creating new ventures, particularly in industries that require long development times, large investments, integration across a wide range of technical and non-technical disciplines, and the creation and protection of intellectual property. Covers business basics, opportunity viability, creating start-ups, entrepreneurial leadership, and entrepreneurship as a career. Teaching methods include lectures, case studies, guest speakers, and individual and team projects.

Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the world present breakthroughs and endeavors that cut across core disciplines. Pre-seminars introduce basic concepts and background for non-experts. Registered students attend all pre-seminars; others welcome. See http://biox.stanford.edu/courses/459.html. Recommended: basic mathematics, biology, chemistry, and physics.

Open to seniors and graduate students interested in the creation of new ventures and entrepreneurship in engineering and science intensive industries such as chemical, energy, materials, bioengineering, environmental, clean-tech, pharmaceuticals, medical, and biotechnology. Exploration of the dynamics, complexity, and challenges that define creating new ventures, particularly in industries that require long development times, large investments, integration across a wide range of technical and non-technical disciplines, and the creation and protection of intellectual property. Covers business basics, opportunity viability, creating start-ups, entrepreneurial leadership, and entrepreneurship as a career. Teaching methods include lectures, case studies, guest speakers, and individual and team projects.

Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the world present breakthroughs and endeavors that cut across core disciplines. Pre-seminars introduce basic concepts and background for non-experts. Registered students attend all pre-seminars; others welcome. See http://biox.stanford.edu/courses/459.html. Recommended: basic mathematics, biology, chemistry, and physics.

(Graduate students enroll in 251. COMM 151 is offered for 5 units, COMM 251 is offered for 4 units.) The First Amendment: Freedom of Speech and Press (Law 7084): Introduction to the constitutional protections for freedom of speech, press, and expressive association. All the major Supreme Court cases dealing with issues such as incitement, libel, hate speech, obscenity, commercial speech, and campaign finance. There are no prerequisites, but a basic understanding of American government would be useful. This course is crosslisted in the university and undergraduates are eligible to take it. Elements used in grading: Law students will be evaluated based on class participation and a final exam. Non-law students will be evaluated on class participation, a midterm and final exam, and nonlaw students will participate in a moot court on a hypothetical case. Non-law students will also have an additional one hour discussion section each week led by a teaching assistant. Cross-listed with Communication (COMM 151, COMM 251) and Political Science (POLISCI 125P).

Crosslisted with LAW 7082. This course will cover contemporary issues in regulation of the Internet. Topics will include disinformation, polarization, privacy, competition, transparency, advertising, security, and algorithmic ranking. Guest speakers from academia, NGOs, and industry will present on these topics in each class session, followed by a discussion. Students will be responsible for one-page papers each week on the readings and a research paper to be turned in at the fall paper deadline. This class is crosslisted in the university and undergraduates are eligible to take it. Elements used in grading: Attendance, Written Assignments, Final Paper.

In this course we creatively apply information technologies to collectively attack Global Grand Challenges (e.g., global warming, rising healthcare costs and declining access, and ensuring quality education for all). Interdisciplinary student teams will carry out need-finding within a target domain, followed by brainstorming to propose a quarter long project. Teams will spend the rest of the quarter applying user-centered design methods to rapidly iterate through design, prototyping, and testing of their solutions. This course will interweave a weekly lecture with a weekly studio session where students apply the techniques hands-on in a small-scale, supportive environment. Note: Cardinal Course certified by the Haas Center for Public Service

For graduate and undergraduate students interested in the natural sciences and the Spanish language. Students will acquire the ability to communicate in Spanish using scientific language and will enhance their ability to read scientific literature written in Spanish. Emphasis on the development of science in Spanish-speaking countries or regions. Course is conducted in Spanish and intended for students pursuing degrees in the sciences, particularly disciplines such as ecology, environmental science, sustainability, resource management, anthropology, and archeology.

(Graduate students register for 323H.) Five weeks of marine science including oceanography, marine physiology, policy, maritime studies, conservation, and nautical science at Hopkins Marine Station, followed by five weeks at sea aboard a sailing research vessel in the Pacific Ocean. Shore component comprised of three multidisciplinary courses meeting daily and continuing aboard ship. Students develop an independent research project plan while ashore, and carry out the research at sea. In collaboration with the Sea Education Association of Woods Hole, MA. Only 6 units may count towards the Biology major.

This is a project-based workshop. Practical introduction to issues in educational policy making, education reform, educational planning, implementation of policy interventions, and monitoring and evaluation in developing country contexts. Preference to students enrolled in ICE/IEAPA, but open to other students interested in international development or comparative public policy with instructor's consent. Attendance at first class required for enrollment.

Psychological research has the potential to create novel interventions that promote the public good. This workshop will expose students to psychologically 'wise' intervention research and to support their efforts to conduct such interventions, especially in the context of education, broadly conceived, as well as other areas. The first part of the class will address classic interventions and important topics in intervention research, including effective delivery mechanisms, sensitive behavioral outcomes, the role of theory and psychological process, and considerations of the role of time and of mechanisms that can sustain treatment effects over time. In the second part of the class, students will present and receive feedback on their own ongoing and/or future intervention research. Prerequisite: Graduate standing in Psychology or Education, or consent of instructor.

(Same as LAW 660A). The Youth and Education Law Project offers students the opportunity to participate in a wide variety of educational rights and reform work, including direct representation of youth and families in special education and school discipline matters, community outreach and education, school reform litigation, and/or policy research and advocacy. All students have an opportunity to represent elementary and high school students with disabilities in special education proceedings, to represent students in school discipline proceedings, or to work with community groups in advocating for the provision of better and more equitable educational opportunities to their children. In addition, the clinic may pursue a specific policy research and advocacy project that will result in a written policy brief and policy proposal. Students working on special education matters have the opportunity to handle all aspects of their clients' cases. Students working in this area interview and counsel clients, investigate and develop facts, work with medical and mental health professionals and experts, conduct legal and educational research, create case plans, and represent clients at individual education program (IEP) team meetings, mediation or special education due process hearings. This work offers students a chance to study the relationship between individual special education advocacy and system-wide reform efforts such as impact litigation. Students working on school discipline matters interview and counsel clients, investigate and develop facts, interview witnesses, conduct legal and educational research, create case plan, and represent clients at school discipline hearings such as expulsion hearings. Such hearings provide the opportunity to present oral and written argument, examine witnesses, and present evidence before a hearing officer. If appropriate and necessary, such proceedings also present the opportunity to represent students on appeal before the school district board of trustees or the county board of education. The education clinic includes two or three mandatory training sessions to be held at the beginning of the term, a weekly seminar that focuses on legal skills and issues in law and education policy, regular case review, and a one hour weekly meeting with the clinic instructor. Admission is by consent of instructor. Beginning with the 2009-2010 academic year, each of the Law School's clinical courses is being offered on a full-time basis for 12 credits.

(Same as LAW 660B). The Youth and Education Law Project offers students the opportunity to participate in a wide variety of educational rights and reform work, including direct representation of youth and families in special education and school discipline matters, community outreach and education, school reform litigation, and/or policy research and advocacy. All students have an opportunity to represent elementary and high school students with disabilities in special education proceedings, to represent students in school discipline proceedings, or to work with community groups in advocating for the provision of better and more equitable educational opportunities to their children. In addition, the clinic may pursue a specific policy research and advocacy project that will result in a written policy brief and policy proposal. Students working on special education matters have the opportunity to handle all aspects of their clients' cases. Students working in this area interview and counsel clients, investigate and develop facts, work with medical and mental health professionals and experts, conduct legal and educational research, create case plans, and represent clients at individual education program (IEP) team meetings, mediation, or special education due process hearings. This work offers students a chance to study the relationship between individual special education advocacy and system-wide reform efforts such as impact litigation. Students working on school discipline matters interview and counsel clients, investigate and develop facts, interview witnesses, conduct legal and educational research, create case plan, and represent clients at school discipline hearings such as expulsion hearings. Such hearings provide the opportunity to present oral and written argument, examine witnesses, and present evidence before a hearing officer. If appropriate and necessary, such proceedings also present the opportunity to represent students on appeal before the school district board of trustees of the county board of education. The education clinic includes two or three mandatory training sessions to be held at the beginning of the term, a weekly seminar that focuses on legal skills and issues in law and education policy, regular case review, and a one hour weekly meeting with the clinic instructor. Admission is by consent of instructor. Beginning with the 2009-2010 academic year, each of the Law School's clinical courses is being offered on a full-time basis for 12 credits.

The excitement around social innovation and entrepreneurship has spawned numerous startups focused on tackling world problems, particularly in the fields of education and health. The best social ventures are launched with careful consideration paid to research, design, and efficacy. This course offers students an immersive educational experience into understanding how to effectively develop, evaluate, and scale social ventures. Students will also get a rare "behind-the-scenes" glimpse at the complex ethical dilemmas social entrepreneurs have tackled to navigate the odds. Partnered with TeachAids, a global award-winning nonprofit (scaled to 82 countries), this course introduces students to the major principles of research-based design and integrates instruction supported by several game-changing social leaders. Open to both undergraduate and graduate students, it culminates in a formal presentation to an interdisciplinary panel of diverse Silicon Valley leaders. (Cardinal Course certified by the Haas Center)

Cross-listed with Law (LAW 7071), Political Science (POLISCI 334) and Sociology (SOC 374). Associated with the Center for Philanthropy and Civil Society (PACS). Year-long workshop for doctoral students and advanced undergraduates writing senior theses on the nature of civil society or philanthropy. Focus is on pursuit of progressive research and writing contributing to the current scholarly knowledge of the nonprofit sector and philanthropy. Accomplished in a large part through peer review. Readings include recent scholarship in aforementioned fields. May be repeated for credit for a maximum of 3 units.

(Same as GSBGEN 581) A philanthropist is anyone who gives anything-time, expertise, networks, credibility, influence, dollars, experience-in any amount to create a better world. Regardless of one's age, background or profession, everyone has the potential to lead in a way that both tackles the complex social problems our interconnected world faces and creates greater inclusivity, access and impact. This demanding two-week, compressed course will provide passionate students with a brave space to develop and refine a plan for their own social change journey and amplify their potential to give, live and lead in a way that matters more. Using design thinking, students will challenge their preconceptions and wrestle with their social change approach, their privileged position as future Stanford graduates and philanthropy's role in society. Lectures and class discussions will inspire and prepare students to create social value with greater intentionality and humility. For the first class, students will submit a proposed social impact plan for their professional, philanthropic and civic lives. Over the course's six sessions, students will refine their plan, creating a formal theory of change that strategically utilizes their unique leadership platform and asset portfolio to advance opportunity and justice for a target population. Potential guest speakers include Darren Walker, President of the Ford Foundation; Justin Steele, Principal at Google.org; Crystal Hayling, Executive Director of the Libra Foundation; Rob Reich of Stanford PACS and Laura Muñoz Arnold, Co-Chair of the Laura and John Arnold Foundation.

(Same as GSBGEN 345). This course will explore the contemporary higher education industry, focusing especially on the places where disruptions of all kinds present significant opportunities and challenges for investors, entrepreneurs, and the businesses that serve this huge global market, as well as for faculty, students, and higher education administrators. Using a variety of readings and case studies to better understand recent disruptions and the unbundling occurring across the post-secondary landscape, from outside and inside the academy, both for-profit and non-profit, the course will examine technology in teaching and learning; the future of the degree and alternatives to the traditional credential; accreditation; competency based education; debt and education financing models; investing in the education space; and tertiary products and platforms that serve the student services market. Guests will include higher education leaders and practitioners, as well as investors and entrepreneurs. Attendance at first class meeting is required.

(Also GSBGEN 367). Stanford graduates will play important roles in solving many of today's and tomorrow's major societal problems -- such as improving educational and health outcomes, conserving energy, and reducing global poverty -- which call for actions by nonprofit, business, and hybrid organizations as well as governments. This course teaches skills and bodies of knowledge relevant to these roles through problems and case studies drawn from nonprofit organizations, for-profit social enterprises, and governments. Topics include designing, implementing, scaling, and evaluating social strategies; systems thinking; decision making under risk; psychological biases that adversely affect people's decisions; methods for influencing individuals' and organizations' behavior, ranging from incentives and penalties to "nudges;" human-centered design; corporate social responsibility; and pay-for-success programs. We will apply these concepts and tools to address an actual social problem facing Stanford University. (With the exception of several classes on strategy and evaluation, there is no substantial overlap with Paul Brest's and Mark Wolfson's course, Strategic Philanthropy and Impact Investing (GSBGEN 319), which has a different focus from this one.)

Language, as a cultural resource for shaping our identities, is central to the concepts of race and ethnicity. This seminar explores the linguistic construction of race and ethnicity across a wide variety of contexts and communities. We begin with an examination of the concepts of race and ethnicity and what it means to be "doing race," both as scholarship and as part of our everyday lives. Throughout the course, we will take a comparative perspective and highlight how different racial/ethnic formations (Asian, Black, Latino, Native American, White, etc.) participate in similar, yet different, ways of drawing racial and ethnic distinctions. The seminar will draw heavily on scholarship in (linguistic) anthropology, sociolinguistics and education. We will explore how we talk and don't talk about race, how we both position ourselves and are positioned by others, how the way we talk can have real consequences on the trajectory of our lives, and how, despite this, we all participate in maintaining racial and ethnic hierarchies and inequality more generally, particularly in schools.

This course is designed to help students develop a more sophisticated understanding of educational inequality in the contemporary U.S. city. This course will survey existing literature about the intersection of gentrification and urban schooling, focusing on policies and practices that gave rise to the current urban condition, theory and research about urban redevelopment, collateral consequences for schools and communities, and how these issues relate to the structure and governance of urban schools as well as to the geography of opportunity more broadly.

This course examines discourses around education and freedom in African American educational thought from the 19th century to the present, using both primary sources and the works of current historians. The course pays particular attention to how the educational philosophies of different African American thinkers reflected their conceptions of what shape freedom might take in the American context, and the tension between educational outlooks that sought inclusion or integration versus those that prized self-determination. We will also be attentive to the ways in which age, gender, geography, class, and color worked to influence the pursuit and achievement of various African American educational visions. This will be a 3-5 credit course and meet as a seminar open both to graduate students and advanced undergraduates.

This course facilitates the application of the methods, theories, and findings of behavioral science to students own lives and improvement projects. It does so by combining behavioral science with a design thinking approach. You will learn to identify your potential, navigate to achieve it, and stay resilient during the journey. Students will design their own action plans, define goals and prototype strategies to test them, in an iterative feedback cycle. Our course thus blends two intellectual streams that seldom intersect: behavioral science and design thinking.

Health and education are inextricably linked. If kids aren't healthy, they won't realize their full potential in school. This is especially true for children living in poverty. This course proposes to: 1) examine the important relationship between children's health and their ability to learn in school as a way to reduce heath disparities; 2) discuss pioneering efforts to identify and address manageable health barriers to learning by integrating health and education in school environments. HUMBIO students must enroll in HUMBIO 122E. Med/Graduate students must enroll in PEDS 229 . Education students must enroll in EDUC 429.

(Same as STRAMGT 335) In this course, students will investigate opportunities and challenges of entrepreneurial ventures trying to increase access to educational opportunity, improve the quality of learning experiences for underserved students and disrupt systemic inequities in preK-12 education. Class discussions will explore frameworks for understanding how to maximize educational impact by ensuring efficacy, increasing financial sustainability, and building scale. Cases are focused on organizations in early childhood, primary and secondary education, and feature a variety of ventures (including schools, technology, educator training, and supplemental services) and organizational models (for-profit, not-for-profit, and benefit corporation) in the U.S. and globally. Note: This is not a "how to" class on starting an education venture; it focuses on the strategic challenges of maximizing impact. This course is designed for students who want to be part of creating a more equitable society and improving opportunities for youth, whether by becoming entrepreneurs, leaders, Board members, donors or investors in education organizations. Attendance at the first class meeting is required.

Solving the global climate challenge will require the creation and successful scale-up of hundreds of new ventures. This project-based course provides a launchpad for the development and creation of transformational climate ventures and innovation models. Interdisciplinary teams will research, analyze, and develop detailed launch plans for high-impact opportunities in the context of the new climate venture development framework offered in this course. Throughout the quarter, teams will complete 70+ interviews with customers, sector experts, and other partners in the emerging climatetech ecosystem, with introductions facilitated by the teaching team's unique networks in this space. Please see the course website scv.stanford.edu for more information and alumni highlights. Project lead applications are due by December 11 through tinyurl.com/scvprojectlead. Students interested in joining a project team, please briefly indicate your interest in the course at tinyurl.com/scvgeneralinterest. Cardinal Course certified by the Haas Center for Public Service.

In this lab, multi-disciplinary teams of students tackle high-impact, unsolved problems for social sector partners. Teams receive mentorship and coaching from Stanford faculty, domain experts, and data science experts from industry. Sample projects include innovations for: poverty alleviation in the developing world, local government services, education, and healthcare. Limited enrollment; application required. May be repeated for credit. See http://datalab.stanford.edu for more information.

This is a course about the American legislative process. You will learn how the United States Congress and President enact a law by role-playing as Members of the U.S. House of Representatives and Senate, or as senior advisors to the President. You will engage in legislative debate, offering amendments, voting, and extensive policy and legislative negotiation, with the goal of enacting new laws. The simulated legislative agenda involves four policy topics: economic growth and income distribution, climate change, regulation of "Big Tech," and an international issue. As a class, you will try to enact a new law in each of these four areas. This class is for beginners. You will: -Learn a bit about four policy issues (likely climate change, economics, regulation of "Big Tech," and an international issue); -Learn both the formal and informal rules of legislating-how a bill really becomes a law; and -Develop and practice your "soft skills," including persuasion, negotiation, leadership, strategy, and organizational analysis.

The COVID-19 pandemic disrupted higher education significantly, surfacing novel needs, while at the same putting decades long trends into sharper focus. This course explores the contemporary higher education industry, focusing especially on the places where disruptions of all kinds present significant opportunities and challenges for entrepreneurs, investors, and the businesses that serve this huge global market, as well as for faculty, students, and higher education institutions and leaders, both incumbents and alternatives. Using a variety of readings and case studies to better understand recent disruptions and the unbundling occurring across the postsecondary landscape, from outside and inside the academy, both for-profit and non-profit, the course will examine technology in teaching and learning; the future of the degree and alternatives to the traditional credential; accreditation; competency based education; affordability, student debt, and education financing models; investing in the education space; workforce, skills development, and lifelong learning; and tertiary products and platforms that serve the student services market. Guests will include higher education leaders and practitioners, as well as investors, entrepreneurs, and social entrepreneurs. (Please note, the focus of this course is post-secondary education, skilling/lifelong learning, and learning in the workplace. It does not cover K-12 or early childhood education).

Stanford graduates will play important roles in solving many of today's and tomorrow's major societal problems-in areas such as education, health, energy, and domestic and global poverty-that call for actions by nonprofit, business, and hybrid organizations as well as governments. This course teaches skills and bodies of knowledge relevant to these roles, covering topics such as designing, implementing, scaling, and evaluating social strategies; systems thinking; decision making under risk; psychological biases that adversely affect people's decisions; methods for influencing behavior; and pay-for-success programs. The large majority of the course will be devoted to students' working in teams to apply these concepts and tools to an actual problem, with teams choosing whatever problem interests them.

A philanthropist is anyone who gives anything- time, expertise, networks, credibility, dollars, experience- in any amount to create a better world. Philanthropy is resource, background, age, profession, and industry agnostic, and "Individual Philanthropy: Giving Models, Purpose & Practicum" will amplify your ability to make your giving, volunteering, service and leadership matter more. You have extraordinary potential to create social change, and this course will empower you with the perspective, experience and inspiration to actualize that potential both immediately and over your lifetime. You will be exposed to a diverse array of giving models and approaches, and be given structured space to weigh and appraise your individual philanthropic point of view and approach. Through deep introspection, you will define and/or refine your social change purpose and create a theory of change that maps how you will transform your values, beliefs and resources (including intellectual, human, network, experiential and financial capital) into measurable social value. Class activities will include debates and simulations such as discussing the benefits and challenges of diverse giving models, creating personal giving strategies, giving fundraising pitches and assessing actual foundation grant proposals. Each student will select and complete due diligence on a local nonprofit and create a formal grant proposal. Students will peer-review grant proposals, participate in a multi-stage grantmaking process and allocate $20,000 of grants funded by the Learning by Giving Foundation and Andreessen Philanthropies. Students will also have the unique opportunity to directly connect and engage with globally renowned philanthropic leaders, including Darren Walker (Ford Foundation), Laura Muñoz Arnold (Arnold Ventures), Justin Steele (Google.org), Crystal Hayling (Libra Foundation) and Holden Karnofsky (Open Philanthropy Project), among others.

(Same as LAW 3006) Legal, social, and ethical issues arising from advances in neuroscience, including effects upon law and society through improvements in predicting illnesses and behaviors, reading minds through neuroimaging, understanding responsibility and consciousness, treating criminal behavior, and cognitive enhancement.

Social Entrepreneurship and Innovation Lab (SE Lab) - Global & Planetary Health is a Collaboratory workshop for students/fellows to design and develop innovative social ventures addressing key challenges in health and the environment, especially in support of the UN Sustainable Development Goals (SDGs 2030). Your mandate in identifying problems and designing solutions is broad and flexible! SE Lab is open to students and fellows across Stanford and combines design thinking exercises, short lectures & case studies, workshops, small group teamwork, presentations, guest speakers, and faculty, practitioner and peer feedback to support you and your team in generating and developing ideas and projects that will change the world! Join SE Lab with an idea or simply the desire to join a team. Enrollment limited to 30.

Are you interested in innovative ideas and strategies for addressing urgent challenges in human and planetary health and creating sustainable societies? This 7 session lecture series features a selection of noteworthy leaders, innovators, and experts across diverse sectors/topics in health and the environment such as: health innovation and environmental sustainability, social and environmental justice and equality, social innovation and entrepreneurship ecosystems, foundations and venture capital, tech innovation, media and AI, biotech and ag-tech, pandemics, public health and community wellbeing, food systems and agricultural innovation, hunger and nutrition, clean water and air, nonprofits and community action, public policy innovation and systems change, and the role of academia and you. Co-convened and co-designed by faculty, fellows and students collaborating across several Stanford centers, departments, schools, the course invites the discussion of global problems, interdisciplinary perspectives, and systemic solutions for the climate crisis and human health. The course will address root causes of the climate crisis and urgent challenges of human and planetary health, including sociological constraints, political objectives, economic incentives, technological limitations, and preservation of global stability, and suggest models of leadership, innovation and sustainable social change. We will also delve into efforts to catalyze long-term sustainability across the private, nonprofit, and public sectors. Students from all backgrounds are encouraged to enroll - registration is open to all Stanford students and fellows. May be repeated for credit.

The interdisciplinary field of medical humanities: the use of the arts and humanities to examine medicine in personal, social, and cultural contexts. Topics include the doctor/patient relationship, the patient perspective, the meaning of doctoring, and the meaning of illness. Sources include visual and performing arts, film, and literary genres such as poetry, fiction, and scholarly writing. Designed for medical students in the Biomedical Ethics and Medical Humanities Scholarly Concentration, but all students are welcome.

Medicine, like theater, is both a skill set and an art form. The practice of medicine demands exceptional communicative, cognitive, and interpersonal skills in order to respond to unpredictable situations while interacting with a wide variety of individuals. Improvisational theater skills have a surprising and substantial overlap with those required of clinicians. Improv is a genre of performance art grounded in principles of spontaneity, adaptability, collaboration, and skilled listening. In this course, the principles and training techniques of improvisational theater are used to highlight and improve awareness, communication, and teamwork in the field of medicine. Limited enrollment. Class meets on six consecutive Mondays 10/2, 10/9, 10/16, 10/23, 10/30, and 11/6 from 5:30-7:30 pm.

For graduate and undergraduate students interested in the natural sciences and the Spanish language. Students will acquire the ability to communicate in Spanish using scientific language and will enhance their ability to read scientific literature written in Spanish. Emphasis on the development of science in Spanish-speaking countries or regions. Course is conducted in Spanish and intended for students pursuing degrees in the sciences, particularly disciplines such as ecology, environmental science, sustainability, resource management, anthropology, and archeology.

Design for Extreme Affordability (fondly called Extreme) is a two-quarter course offered by the d.school through the School of Engineering and the Graduate School of Business. This multidisciplinary project-based experience creates an enabling environment in which students learn to design products and services that will change the lives of the world's poorest citizens. Students work directly with course partners on real world problems, the culmination of which is actual implementation and real impact. Topics include design thinking, product and service design, rapid prototype engineering and testing, business modelling, social entrepreneurship, team dynamics, impact measurement, operations planning and ethics. Possibility to travel overseas during spring break. Previous projects include d.light, Driptech, Earthenable, Embrace, the Lotus Pump, MiracleBrace, Noora Health and Sanku. Periodic design reviews; Final course presentation and expo; industry and adviser interaction. Limited enrollment via application. Must sign up for ME206A and ME206B. See extreme.stanford.edu

Design for Extreme Affordability (fondly called Extreme) is a two-quarter course offered by the d.school through the School of Engineering and the Graduate School of Business. This multidisciplinary project-based experience creates an enabling environment in which students learn to design products and services that will change the lives of the world's poorest citizens. Students work directly with course partners on real world problems, the culmination of which is actual implementation and real impact. Topics include design thinking, product and service design, rapid prototype engineering and testing, business modelling, social entrepreneurship, team dynamics, impact measurement, operations planning and ethics. Possibility to travel overseas during spring break. Previous projects include d.light, Driptech, Earthenable, Embrace, the Lotus Pump, MiracleBrace, Noora Health and Sanku. Periodic design reviews; Final course presentation and expo; industry and adviser interaction. Limited enrollment via application. Must sign up for ME206A and ME206B. See extreme.stanford.edu. Cardinal Course certified by the Haas Center

Students learn to tell personal narratives and prototype connections between popular and historic media using the automobile. Explores the meaning and impact of personal and preserved car histories. Storytelling techniques serve to make sense of car experiences through engineering design principles and social learning, Replay memories, examine engagement and understand user interviews, to design for the mobility experience of the future. This course celebrates car fascination, and leads the student through finding and telling a car story through the REVS photographic archives, ethnographic research, interviews, and diverse individual and collaborative narrative methods-verbal, non-verbal, and film. Methods draw from socio-cognitive psychology design thinking, and fine art; applied to car storytelling. Course culminates in a final story presentation and showcase. Restricted to co-term and graduate students. Class Size limited to 16.

Students learn to define emotions as physiology, expression, and private experience using the automobile and shared space. Explores the meaning and impact of personal and user car experience. Reflective, narrative, and socio-cognitive techniques serve to make sense of mobility experiences; replay memories; examine engagement; understand user interviews. This course celebrates car fascination and leads the student through finding and telling the car experience through discussion, ethnographic research, interviews, and diverse individual and collaborative narrative methods-verbal, non-verbal, and in car experiences. Methods draw from socio-cognitive psychology, design thinking, and fine art, and are applied to the car or mobility experience. Course culminates in a final individual narrative presentation and group project demonstration. Class size limited to 18.

In this two-quarter course, multidisciplinary teams identify real unmet healthcare needs, invent health technologies to address them, and plan for their implementation into patient care. In second quarter, teams select a lead solution to advance through technical prototyping, strategies to address healthcare-specific requirements (IP, regulation, reimbursement), and business planning. Class sessions include faculty-led instruction, case studies, coaching sessions by experts, guest lecturers, and interactive team meetings. Enrollment is by application. Students are required to take both quarters of the course.

Design Thinking Studio is an immersive introduction to design thinking. You will engage in the real world with your heart, hands and mind to learn and apply the tools and attitudes of design. The class is project-based and emphasizes adopting new behaviors of work. Fieldwork and collaboration with teammates are required and are a critical component of the class. Application required, see dschool.stanford.edu/classes for more information.

The excitement around social innovation and entrepreneurship has spawned numerous startups focused on tackling world problems, particularly in the fields of education and health. The best social ventures are launched with careful consideration paid to research, design, and efficacy. This course offers students an immersive educational experience into understanding how to effectively develop, evaluate, and scale social ventures. Students will also get a rare "behind-the-scenes" glimpse at the complex ethical dilemmas social entrepreneurs have tackled to navigate the odds. Partnered with TeachAids, a global award-winning nonprofit (scaled to 82 countries), this course introduces students to the major principles of research-based design and integrates instruction supported by several game-changing social leaders. Open to both undergraduate and graduate students, it culminates in a formal presentation to an interdisciplinary panel of diverse Silicon Valley leaders. (Cardinal Course certified by the Haas Center)

In this two-quarter course series ( BIOE 374A/B, MED 272A/B, ME 368A/B, OIT 384/5), multidisciplinary student teams identify real-world unmet healthcare needs, invent new health technologies to address them, and plan for their implementation into patient care. During the first quarter (winter), students select and characterize an important unmet healthcare problem, validate it through primary interviews and secondary research, and then brainstorm and screen initial technology-based solutions. In the second quarter (spring), teams select a lead solution and move it toward the market through prototyping, technical re-risking, strategies to address healthcare-specific requirements (regulation, reimbursement), and business planning. Final presentations in winter and spring are made to a panel of prominent health technology experts and/or investors. Class sessions include faculty-led instruction and case studies, coaching sessions by industry specialists, expert guest lecturers, and interactive team meetings. Enrollment is by application only, and students are required to participate in both quarters of the course. Visit http://biodesign.stanford.edu/programs/stanford-courses/biodesign-innovation.html to access the application, examples of past projects, and student testimonials. More information about Stanford Biodesign, which has led to the creation of 50 venture-backed healthcare companies and has helped hundreds of student launch health technology careers, can be found at http://biodesign.stanford.edu/.

In this two-quarter course, multidisciplinary teams identify real unmet healthcare needs, invent health technologies to address them, and plan for their implementation into patient care. In second quarter, teams select a lead solution to advance through technical prototyping, strategies to address healthcare-specific requirements (IP, regulation, reimbursement), and business planning. Class sessions include faculty-led instruction, case studies, coaching sessions by experts, guest lecturers, and interactive team meetings. Enrollment is by application. Students are required to take both quarters of the course.

In a crisis, national security initiatives move at the speed of a startup yet in peacetime they default to decades-long acquisition and procurement cycles. Startups operate with continual speed and urgency 24/7. Over the last few years they've learned how to be not only fast, but extremely efficient with resources and time using lean startup methodologies. In this class student teams will take actual national security problems and learn how to apply lean startup principles, ("business model canvas," "customer development," and "agile engineering) to discover and validate customer needs and to continually build iterative prototypes to test whether they understood the problem and solution. Teams take a hands-on approach requiring close engagement with actual military, Department of Defense and other government agency end-users. Team applications required in February, see hacking4defense.stanford.edu. Limited enrollment.

Students will learn to select and evaluate multidisciplinary techniques for approaching modern neuroscience questions. A combination of lectures and small group paper discussions will introduce techniques from molecular, genetic, behavioral, electrophysiological, imaging, and computational neuroscience. Students will be expected to complete homework assignments analyzing primary literature and attend optional laboratory demonstrations. Intended for graduate students, postdocs, and staff from any discipline; and for advanced undergraduates in the biosciences, engineering, or medicine.

This is a course in the design of social research, with a particular emphasis on research field (i.e., non-laboratory) settings. As such, the course is a forum for discussing and developing an understanding of the different strategies social theorists employ to explain social processes, develop theories, and make these theories as believable as possible. In general, these issues will be discussed in the context of sociological research on organizations, but this will not be the exclusive focus of the course. A range of topics will be covered, for example: formulating and motivating research questions; varieties of explanation; experimental and quasi-experimental methods, including natural experiments; counterfactual models; conceptualization and measurement; sampling and case selection; qualitative and quantitative approaches. This course is particularly oriented toward developing an appreciation of the tradeoffs of different approaches. It is well suited to Ph.D. students working on qualifying papers and dissertation proposals.

This course facilitates the application of the methods, theories, and findings of behavioral science to students own lives and improvement projects. It does so by combining behavioral science with a design thinking approach. You will learn to identify your potential, navigate to achieve it, and stay resilient during the journey. Students will design their own action plans, define goals and prototype strategies to test them, in an iterative feedback cycle. Our course thus blends two intellectual streams that seldom intersect: behavioral science and design thinking.

Psychological research has the potential to create novel interventions that promote the public good. This workshop will expose students to psychologically 'wise' intervention research and to support their efforts to conduct such interventions, especially in the context of education, broadly conceived, as well as other areas. The first part of the class will address classic interventions and important topics in intervention research, including effective delivery mechanisms, sensitive behavioral outcomes, the role of theory and psychological process, and considerations of the role of time and of mechanisms that can sustain treatment effects over time. In the second part of the class, students will present and receive feedback on their own ongoing and/or future intervention research. Prerequisite: Graduate standing in Psychology or Education, or consent of instructor.

Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the world present breakthroughs and endeavors that cut across core disciplines. Pre-seminars introduce basic concepts and background for non-experts. Registered students attend all pre-seminars; others welcome. See http://biox.stanford.edu/courses/459.html. Recommended: basic mathematics, biology, chemistry, and physics.

Social Entrepreneurship and Innovation Lab (SE Lab) - Global & Planetary Health is a Collaboratory workshop for students/fellows to design and develop innovative social ventures addressing key challenges in health and the environment, especially in support of the UN Sustainable Development Goals (SDGs 2030). Your mandate in identifying problems and designing solutions is broad and flexible! SE Lab is open to students and fellows across Stanford and combines design thinking exercises, short lectures & case studies, workshops, small group teamwork, presentations, guest speakers, and faculty, practitioner and peer feedback to support you and your team in generating and developing ideas and projects that will change the world! Join SE Lab with an idea or simply the desire to join a team. Enrollment limited to 30.

(PUBLPOL 134, PUBLPOL 234 - 3 credits; Ways - ER; Same as LAW 7020) The objective of this course is to explore cutting-edge ethical challenges in a world in which technology, global risks, and societal developments are accelerating faster than our understanding and the law can keep pace. The course also offers a parallel personal journey: an opportunity to explore your own ethics and increase your own resilience when life throws challenges your way. We will unravel the ethics challenges and problem-solve across sectors: business, government, non-profit, and academia. A framework for ethical decision-making underpins the course. However, there is significant space for forming your own views on a wide range of issues. Prominent guest speakers will attend certain sessions interactively. The relationships among ethics and technology, culture, leadership, law, and global risks (AI, synthetic biology, inequality, privacy, financial system meltdown, cyber-terrorism, climate change, diversity and inclusion, etc.) will inform discussion. A broad range of topics might include: designer genetics; civilian space travel; generative AI; the Supreme Court case on University affirmative action; new wearable devices; free speech on University campuses; opioid addiction; corporate and financial sector scandals (Theranos, FTX, currency); and non-profit sector ethics challenges (e.g. medical humanitarian aid in Gaza). Final project in lieu of exam on a topic of student's choice. Attendance required. Class participation important, with multiple opportunities to earn participation credit beyond speaking in class. Strong emphasis on rigorous analysis, critical thinking, and testing ideas in real-world contexts. Note that this course will require one make-up evening session on a Wednesday or Thursday in early May in lieu of the final class session in June. Enrollment will be decided via application, which can be found at https://forms.gle/xw9bPh5wjxPZZcwf6. **The form will open on 3/6 at 5pm and close on 3/13 at 5pm.** The course offers credit toward Public Policy core requirements (if taken in combination with PUBLPOL 103F) and it satisfies the undergraduate Ways of Thinking - ER requirement. The course is open to undergraduate and graduate students. Undergraduates will not be at a disadvantage. Everyone will be challenged. Students taking the course for Ways credit and Public Policy majors taking the course to complete the core requirements must obtain a letter grade. Others may take the course for a letter grade or C/NC. Students seeking credit for other majors should consult their departments.

The careers of individuals are shaped by their movement within and between organizations, whether those be established employers or entrepreneurial ventures. Conversely, organizations of all sizes are shaped by the flows of individuals through them as individuals construct careers by pursuing different opportunities. This course will examine sociological and economic theory and research on this mutually constitutive relationship. Possible topics include inequality and attainment processes, internal labor markets, mobility dynamics, individual and organizational learning, ecological influences, gender and racial segregation, discrimination, and entrepreneurship as a career process

Successful leaders on the journey to better care delivery methods with lower total spending inevitably face challenges. What confluence of attitudes, values, strategy, and events allows them to prevail? Contexts will include public policy, entrepreneurship and early stage investing, care delivery innovations, and health care system management to improve the value of care. Course faculty and guests will consist of nationally recognized leaders, innovators, and change agents. The course is open to any member of the Stanford community aspiring to lead value improvement in health care delivery including medical, MBA, law, and graduate students, as well as undergraduates, postdoctoral candidates, and medical center trainees. May be repeated for credit.

S321/S322 is an integrated lab course in Entrepreneurship designed to teach students the process of creating a new viable venture - from Idea to Launch. It is a dynamic and interactive course organized around projects undertaken by teams of 3 to 4 registered students from the MSx and MBA programs, together with other graduate students from within Stanford who bring expertise of particular relevance to the idea being pursued, e.g. engineering, CS or medicine. This course is designed not only for students with immediate entrepreneurial aspirations but also for any student considering starting an entrepreneurial venture at some point in his or her career. The course is a two-quarter class, with admission to the class by team and idea. In the winter quarter, teams will research, craft, test and morph their idea into a viable business concept. In the spring quarter, they will further test, refine their concept and develop a strategy and plan to attract financial, human and other resources. At the end of the spring quarter, teams will present their plan to a panel of experts and potential investors to simulate the funding process. The course builds on important research, successes, and findings as they relate to the process of new venture creation. The teaching method is through a structured process of relevant mini-lectures, exercises and active in-depth team learning by doing (LBD). Extensive field research and prototype product development are integral to the course. Learning is further enhanced through meetings with the instructor, coaching by their assigned experienced mentors, experts, and review by peers. Informal student meetings/mixers will be held in the autumn quarter to further facilitate the formation of teams and assist in idea generation. The application process for S321/322,-Create A New Venture: from Idea to Launch- is described on the course website.

S321/S322 is an integrated lab course in Entrepreneurship designed to teach students the process of creating a new viable venture - from Idea to Launch. It is a dynamic and interactive course organized around projects undertaken by teams of 3 to 4 registered students from the MSx and MBA programs, together with other graduate students from within Stanford who bring expertise of particular relevance to the idea being pursued, e.g. engineering, CS or medicine. This course is designed not only for students with immediate entrepreneurial aspirations but also for any student considering starting an entrepreneurial venture at some point in his or her career. The course is a two-quarter class, with admission to the class by team and idea. In the winter quarter, teams will research, craft, test and morph their idea into a viable business concept. In the spring quarter, they will further test, refine their concept and develop a strategy and plan to attract financial, human and other resources. At the end of the spring quarter, teams will present their plan to a panel of experts and potential investors to simulate the funding process. The course builds on important research, successes, and findings as they relate to the process of new venture creation. The teaching method is through a structured process of relevant mini-lectures, exercises and active in-depth team learning by doing (LBD). Extensive field research and prototype product development are integral to the course. Learning is further enhanced through meetings with the instructor, coaching by their assigned experienced mentors, experts, and review by peers. Informal student meetings/mixers will be held in the autumn quarter to further facilitate the formation of teams and assist in idea generation. The application process for S321/322, 'Create A New Venture: from Idea to Launch' is described on the course website.

(BIOE 376) Startup Garage is an intensive, hands-on, project-based course where students apply design thinking, lean startup methodology, and the Business Model Canvas to conceive, design, and field-test new business concepts that address real world needs. Teams get out of the building and interact directly with users, stakeholders, and advisors to deeply understand one or more unmet customer needs. They proceed to design, prototype, and test their proposed solutions, validate the value proposition, develop a business model, and identify risks. Teams working on impact-focused ventures apply the same methodology to address the needs of their beneficiaries. Students develop entrepreneurial skills as they learn critical, cutting-edge techniques for testing new venture ideas. Offered by the Graduate School of Business. PREREQUISITE: Team application required. Details and application: http://startupgarage.stanford.edu/details.

Our primary objective in this course is to prepare and equip you to play a high-impact leadership role in the social sector, as a founder, executive, board member, and/or donor/philanthropist. This course seeks to provide a survey of the strategic, governance, and management issues facing a wide range of social sector organizations and their executive and board leaders, in the era of venture philanthropy and social entrepreneurship. The students will also be introduced to core managerial issues uniquely defined by this sector such as development/fundraising, investment management, performance management and nonprofit finance. The course also provides an overview of the sector, including its history and economics. Cases involve a range of nonprofits, from smaller, social entrepreneurial to larger, more traditional organizations, including education, social service, environment, health care, religion, international NGO's and performing arts. In exploring these issues, this course reinforces the frameworks and concepts of strategic management introduced in the core first year courses. In addition to case discussions, the course employs role plays, study group exercises and many extraordinary guest speakers who are luminaries in the social sector.

Today, innovative ventures in developing economies are providing compelling new products and services to a growing middle-class as well as to the lower part of the economic pyramid. These offerings provide consumers ways to better their lives and companies to grow their businesses. As older industries around the world are being disrupted, and entrepreneurial ecosystems in developing economies are evolving, entrepreneurs and investors now have reference points and 'basecamps' to explore unique opportunities. These newly formed networks that include universities, incubators, accelerator programs, angel investor organizations and small venture capital firms are still lacking in breadth and depth, despite their attempts to follow the lead of Silicon Valley. Consequently, investors and founders face distinct and more numerous challenges that they would not encounter in Silicon Valley, such as small local markets, lack of scale-up funding, uncertain exit opportunities, inadequate talent pools and complex legal and political environments.Yet these developing economies are growing and becoming more connected. We are witnessing new technology-based products in these locations allowing problems to be solved at a scale never seen before. AI and machine learning, blockchain, smart sensors, IoT devices, natural language interfaces and AR and VR are just a few of the technologies not only being developed in Silicon Valley, but all over the world. Of course, smartphones, with their multi-faceted sensors, are now becoming ubiquitous. These trends present opportunities such as: replicating business models proven elsewhere; leapfrogging legacy technologies; targeting the base of the pyramid; and starting venture capital firms. Despite this fertile ground for new endeavors, success not only requires an exceptional product/market fit but great execution to start and scale a venture in problematic and sometimes adverse environments.This case-driven course is designed to help students identify new opportunities in developing economies around the world and across industries and to expose them to the challenges they will face. It is targeted at students who are thinking about creating, joining or investing in new ventures in developing economies.The cases and guests will reveal entrepreneurial challenges through the eyes of founders and investors who have seized these opportunities at different stages of the venture: ideation, launch and scaling. This course is designed to showcase innovative companies in high growth industries such as consumer internet, financial services, health care and education. It will feature the latest trends and opportunities in Asia, Eastern Europe, Middle East, Africa and Latin America. By taking this course, you will be better equipped to observe, explain and participate in developing economy ecosystems and the opportunities and challenges they present.