What is the name of your solution?
Feynman
Provide a one-line summary of your solution.
Leveling the STEM Field: A Multilingual, Inclusive Platform that Transforms STEM Learning into a Gamified Experience, Overcoming Cognitive and Socioeconomic Obstacles.
What specific problem are you solving?
In the United States, there are approximately 40 million low-income, minority students who are falling behind by two years compared to their peers. These students include first- and second-generation immigrants, who make up one out of every three students in higher education and represent 28% of all students. While the U.S. hosts more than 427,000 undocumented students, these communities are often marginalized due to language and cultural barriers and lack of resources in their first language, impacting their ability to actively participate in their own education. This already complex issue takes on further layers when considering gender disparities and neurodiversity. The gender gap in STEM fields manifests early and persists throughout educational and career pathways, with boys twice as likely to show interest in STEM fields by middle school and five times more likely to pursue STEM careers in college. This gap is even more pronounced among low-income and immigrant communities, where girls often lack the resources, support, and role models to foster interest in STEM. Furthermore, neurodiverse students, including those with ADHD, face unique learning challenges that traditional educational experiences often fail to address. Despite possessing skills and perspectives that are highly desirable within STEM disciplines, these students remain significantly underrepresented in these fields, creating a multifaceted and intersectional challenge in STEM education equity.
Resources:
What is your solution?
Feynman is a ground-breaking, interactive, and gamified STEM learning platform that addresses the barriers of gender inequity and cognitive diversity in STEM education. This platform, named in honor of the famed physicist and educator Richard Feynman, is driven by advanced language learning and generative AI technologies from industry leaders such as Anthropic, OpenAI, and Google. Feynman is designed to resonate with learners across various stages and to respond to individual needs effectively.
Key features and advantages of Feynman include:
Inclusive Design: The platform minimizes text usage and emphasizes visual and interactive elements, making complex STEM subjects comprehensible and engaging to all students, including those with ADHD and other neurodivergent conditions.
Multilingual Support: Feynman is available in several languages (including Spanish, Hindi, French, and English) and has plans to expand, ensuring that students from diverse linguistic backgrounds can access STEM education in the language they are most comfortable with.
Customized Learning Paths: Leveraging a robust Physics Engine, Feynman guides learners through their unique learning paths, fostering neural pathways and optimizing concentration through a tested gamified experience.
Active Learning: The platform promotes active learning by encouraging students to make predictions, rewarding them when they are correct, and providing them with practical and interactive learning experiences, such as quizzes and visual aids.
Intersectionality: In line with the Gender Equity in STEM Challenge's focus, Feynman is committed to addressing the gender gap in STEM by creating an inclusive and accessible learning environment that caters to the specific needs of female students and those from underrepresented communities.
In conclusion, Feynman is more than a learning platform; it is a tool that empowers students to navigate their own educational journeys, fostering a more inclusive, diverse, and innovative future in STEM.
Demonstration Videos of the product are given on the website:
Feynman(Beta): https://learnquantum.co/
Who does your solution serve, and in what ways will the solution impact their lives?
Feynman is primarily designed to serve students from underrepresented demographics in the STEM field, including low-income students, minorities, first- and second-generation immigrants, and neurodiverse learners. These populations often encounter significant obstacles in their pursuit of STEM education, which can stem from a variety of factors such as language and cultural barriers, socioeconomic difficulties, and a scarcity of resources that are specifically tailored to their unique learning needs.
Our founder, who is intimately involved with non-profit organizations that focus on teaching coding to girls in the K-12 education range, has firsthand knowledge of these barriers. She has observed how both cognitive and socioeconomic challenges can obstruct her students' paths to reaching their full potential in the STEM fields. As a response, the founder has involved her students in the development process of our current prototype. This approach allows us to address the specific pain points in STEM education, particularly in the areas of mathematics, physics, and computer science. We prioritize our students' feedback in real-time, using their invaluable input to continuously refine and improve the Feynman platform. This direct and ongoing engagement with our target population ensures that we remain attuned to their needs and can adapt our solution accordingly.
How are you and your team well-positioned to deliver this solution?
Our team is uniquely positioned to deliver Feynman, as our founder herself has navigated the challenging journey that many of our target users face. As an immigrant and a first-generation college student from a STEM family, she pursued her master's degree in physics, a journey that was not without its obstacles. This experience, coupled with her status on the neurodiverse spectrum, has imparted her with a profound understanding of the barriers that underrepresented groups encounter in their pursuit of STEM education.
Her personal story of perseverance and achievement in the face of adversity inspires our team and deeply resonates with the communities we aim to serve. It also ensures that our solutions are grounded in a nuanced understanding of the unique struggles faced by these communities.
In addition to this personal connection, our team lead has been actively involved in community service, serving as a tutor for a non-profit organization in Manhattan that teaches girls to code. This has provided her with a direct insight into the real-world challenges that students from underrepresented groups face in STEM education.
Throughout our solution development process, we actively engage with our target users, incorporating their feedback in real-time to ensure that Feynman is not only responsive to their needs but also reflective of their aspirations. This commitment to community engagement ensures that our solution is not only informed by, but also representative of, the communities we serve.
In essence, our team's personal experiences, commitment to community service, and user-centered design approach uniquely position us to deliver a solution that truly caters to the needs and aspirations of our target communities.
Which dimension of the Challenge does your solution most closely address?
In what city and state is your solution team headquartered?
New York, New York, USAHow many people does your solution currently serve?
We have about 100 early adopters of the platform that are testing the product and providing feedback on their experience.
What is your solution’s stage of development?
Pilot: An organization testing a product, service, or business model with a small number of users
Why are you applying to the Challenge?
We are applying to the Gender Equity in STEM Challenge to leverage the unique opportunity it presents to overcome multifaceted barriers. As a woman founder, I've faced challenges in raising capital and initial funds, and I understand the nuances of navigating the ecosystem. Our solution has demonstrated the potential in addressing gender inequity in STEM, particularly for underrepresented communities. However, the journey to scale across various frontiers requires comprehensive support, not limited to financial, but also technical guidance, market insight, and cultural understanding. We believe that the partnership with Solve and Tiger Global Impact Ventures can provide these critical resources, aiding us in refining our model, extending our reach, and ultimately amplifying our impact.
Who is the Team Lead for your solution?
Richa Sharma, Founder
How is your Team Lead connected to the community or communities in which your project is based?
Our Team Lead's connection to the community in which our project is based is both personal and professional. As an immigrant and a person on the neurodiverse spectrum, she has firsthand experience navigating the challenges that arise while pursuing higher studies in a system that often doesn't adequately cater to diverse learning needs and backgrounds. This personal journey has fueled her passion for creating solutions to help others overcome similar barriers.
In addition to her personal experiences, she has been actively involved in the local community through her work with a non-profit in Manhattan that teaches coding to girls. This experience has given her a deep understanding of the specific struggles faced by girls, particularly those from underrepresented backgrounds, in the realm of STEM education.
Through her work and personal experiences, our Team Lead has developed a profound connection to the community we aim to serve, and a strong commitment to driving change. Her understanding of the unique challenges faced by these communities is integral to our project's approach and design, helping us to deliver a solution that truly addresses the needs of those we aim to support.
What makes your solution innovative?
Our solution, Feynman, brings a fresh perspective to STEM education by merging cutting-edge technology with a deep understanding of the unique needs of underrepresented communities. What sets Feynman apart is our focus on accessibility, inclusivity, and engagement, ensuring that every student, regardless of their background or learning style, can thrive in the world of STEM.
1. **Utilization of Advanced Technology:** Feynman leverages state-of-the-art foundational language models and Generative AI from leading tech organizations like OpenAI, Google, and Anthropic. This allows us to create highly personalized, adaptive, and engaging learning experiences for students at any stage of their learning journey.
2. **Interactive Learning Environment:** Feynman features a robust Physics Engine that enhances the learning process by providing a highly interactive and immersive experience. Rather than relying solely on text, Feynman uses visual aids and gamified experiences, fostering student engagement and making complex concepts more approachable.
3. **Multilingual and Culturally Sensitive:** Feynman is available in multiple languages, removing the language barrier that can often hinder learning. It also takes into account cultural nuances, ensuring that students from diverse backgrounds feel seen and understood.
4. **Neurodiverse-Friendly Design:** Feynman is designed with neurodiverse learners in mind. By using visual and interactive elements, it caters to various learning styles, making STEM learning more accessible for students with conditions like ADHD, autism, and dyslexia.
This innovative approach has the potential to catalyze broader positive impacts by setting a new standard for inclusivity in STEM education. By demonstrating that it's possible to create a STEM learning platform that is accessible, engaging, and inclusive, Feynman could inspire other educational platforms to follow suit, leading to a more diverse and inclusive STEM landscape.
Moreover, by making STEM education more approachable and enjoyable for underrepresented groups, Feynman could help to diversify the STEM workforce, driving innovation and economic growth. In this way, Feynman has the potential to not only change the market for STEM education but also to make a lasting impact on the STEM industry as a whole.
What are your impact goals for the next year and the next five years, and how will you achieve them?
Our primary impact goal for the next year is to reach and actively engage 50,000 students from underrepresented communities in STEM learning through the Feynman platform. We aim to do this by expanding our partnerships with schools, non-profits, and community organizations serving these communities, and by continuously refining our platform based on user feedback to ensure it meets their unique needs.
Five years from now, we envision Feynman serving over a million students worldwide, transforming the way STEM education is delivered to underrepresented communities. We plan to achieve this by:
Continual Product Improvement: We will regularly update and enhance the Feynman platform based on ongoing user feedback and advancements in AI and educational technology. This will ensure that our platform remains cutting-edge, engaging, and effective at promoting STEM learning.
Strategic Partnerships: We will form alliances with educational institutions, government agencies, non-profit organizations, and corporate partners who share our commitment to promoting diversity and inclusivity in STEM. These partnerships will help us reach a larger audience and provide additional resources and support to our users.
Global Expansion: We will adapt our platform to cater to more languages and cultural contexts, making Feynman accessible to students from diverse backgrounds around the world.
Research and Impact Assessment: We will conduct regular impact assessments to measure the effectiveness of our solution in promoting STEM learning and engagement among our target user groups. The insights gained from these assessments will guide our strategy and product development efforts, ensuring that we are making a meaningful impact on the lives of our users.
By achieving these goals, we aim to create a more diverse, inclusive, and innovative future in STEM, where everyone, regardless of their background or learning style, has the opportunity to thrive.
How are you measuring your progress toward your impact goals?
We are employing a range of quantitative and qualitative metrics to measure our progress towards our impact goals. These include:
User Engagement: We track the number of active users, session duration, and completion rates of our learning modules. These metrics help us gauge how engaging and effective our platform is for students.
User Growth: We monitor the number of new users and the rate of user growth. This helps us assess the reach of our platform and the effectiveness of our outreach and partnership efforts.
Learning Outcomes: We conduct pre- and post-tests to measure learning gains for each module. This helps us assess the educational impact of our platform.
User Satisfaction: We regularly survey our users to gauge their satisfaction with our platform and to gather their feedback for improvements.
Diversity Metrics: We track the demographic composition of our user base to ensure that we are reaching our target communities. This includes data on gender, race/ethnicity, income levels, and neurodiversity.
Success Stories and Testimonials: We collect stories and testimonials from our users about how Feynman has impacted their learning experience and their interest in STEM. These qualitative insights provide a deeper understanding of our impact beyond what can be captured through quantitative metrics alone.
We are committed to data-driven decision making and will use these indicators to continuously refine our platform and strategies, ensuring that we are effectively serving our users and making progress towards our impact goals.
If your solution is tech-based, describe the core technology that powers your solution.
Feynman's core technology is powered by advanced machine learning (ML) and artificial intelligence (AI) models, built on the foundational frameworks provided by Anthropic, OpenAI, and Google. This technology is used to create an adaptive learning environment that caters to each student's unique learning needs and styles.
Language Models: Feynman leverages large language models (LLMs) to create engaging and personalized content. This technology allows us to dynamically generate explanations, quizzes, and learning paths based on each student's understanding and interests.
Physics Engine: We have developed a robust Physics Engine that provides interactive learning experiences. This engine simulates physical phenomena, enabling students to experiment with concepts and deepen their understanding through hands-on learning.
Generative AI Models: These models are used to create visual aids and simulations that bring abstract concepts to life. They help students to intuitively grasp complex concepts through visual learning.
Gamification Elements: Feynman incorporates gamification elements to make learning engaging and fun. These features are designed to stimulate students' interest in STEM and foster a love of learning.
Natural Language Processing (NLP): Our platform uses NLP to enable multi-lingual support, making STEM education accessible to students who speak different languages. It also facilitates intelligent conversations with our chatbot, providing personalized learning support.
Which of the following categories best describes your solution?
A new application of an existing technology
Please select the technologies currently used in your solution:
In which US states does your solution currently operate?
New York
In which US states will your solution be operating within the next year?
New York, California
What type of organization is your solution team?
For-profit, including B-Corp or similar models
How many people work on your solution team?
1
How long have you been working on your solution?
1 month
Solution Team
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Richa Sharma LearnQuantum, Inc.
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What is the name of your organization?
LearnQuantum