The Future of Everything Podcast Por Stanford Engineering arte de portada

The Future of Everything

The Future of Everything

De: Stanford Engineering
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Host Russ Altman, a professor of bioengineering, genetics, and medicine at Stanford, is your guide to the latest science and engineering breakthroughs. Join Russ and his guests as they explore cutting-edge advances that are shaping the future of everything from AI to health and renewable energy. Along the way, “The Future of Everything” delves into ethical implications to give listeners a well-rounded understanding of how new technologies and discoveries will impact society. Whether you’re a researcher, a student, or simply curious about what’s on the horizon, tune in to stay up-to-date on the latest developments that are transforming our world.All rights reserved Ciencia Enfermedades Físicas Higiene y Vida Saludable
Episodios
  • The future of education

    The future of education
    Apr 17 2026
    Education researcher Susanna Loeb studies the broad spectrum of learning experience, including ways to recruit and retain expert teachers, how to optimize classrooms, and the impact of technology on learning. She says pandemic-inspired innovations in tutoring have led to greater student engagement and improved learning outcomes. And on the growing influence of AI in education, Loeb counts herself an optimist. She sees it as a tool for good, enhancing personalized learning and supporting teachers. These innovations that didn’t exist a few years ago stand to help students to thrive, Loeb tells host Russ Altman on this episode of Stanford Engineering’s The Future of Everything podcast. Have a question for Russ? Send it our way in writing or via voice memo, and it might be featured on an upcoming episode. Please introduce yourself, let us know where you're listening from, and share your question. You can send questions to thefutureofeverything@stanford.edu. Episode Reference Links: Stanford Profile: Susanna Loeb Connect With Us: Episode Transcripts >>> The Future of Everything WebsiteConnect with Russ >>> Threads / Bluesky / MastodonConnect with School of Engineering >>> Twitter/X / Instagram / LinkedIn / Facebook Chapters: (00:00:00) Introduction Russ Altman introduces guest Susanna Loeb, a professor of education at Stanford University. (00:02:58) Path into Education Susanna’s journey from engineering to education and her focus on impact at scale. (00:04:41) The Field of Learning Science The different approaches and challenges in education and its research. (00:07:06) Tutoring After the Pandemic How COVID exposed learning gaps and accelerated interest in tutoring. (00:10:14) What Makes Tutoring Effective The different factors that go into making tutoring effective. (00:12:16) Spreading Proven Practices Using proof points and partnerships to drive adoption across districts. (00:14:00) Building Education Networks The importance of trusted relationships and communication channels. (00:14:50) AI in the Classroom How schools are beginning to adopt AI tools and respond to demand. (00:16:00) AI & Education How teachers are leading AI adoption, with limited direct student use. (00:19:37) A Framework for Using AI The focus on improving student experiences and personalized learning. (00:21:23) Studying AI in Real Time Challenges of evaluating fast-changing tools and the need for rapid testing. (00:23:22) Partnering with AI Companies Collaborating with industry to test tools like ChatGPT in schools. (00:25:26) AI & Tutoring Blending human tutors with AI support to improve outcomes. (00:27:22) The Limits of AI Tutors Why human motivation and relationships remain essential. (00:28:54) The Future of Education Systems Balancing innovation with equitable access and student engagement. (00:30:51) Future In a Minute Rapid-fire Q&A: optimism, scaling education, and collaboration. (00:32:54) Conclusion Connect With Us:Episode Transcripts >>> The Future of Everything WebsiteConnect with Russ >>> Threads / Bluesky / MastodonConnect with School of Engineering >>>Twitter/X / Instagram / LinkedIn / Facebook Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.
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    34 m
  • The future of networking technology

    The future of networking technology
    Apr 10 2026
    Computer scientist Keith Winstein is an expert in how computers communicate. Computer networks create what he calls shared fictions – abstract realities, like a website or a Zoom call, that exist only because the computers on either end agree to act as if they are real. Unfortunately, today’s networks lack a shared notion of a “computation,” which hurts market efficiency in cloud computing and frustrates efforts to hold tech companies accountable for the results of their algorithms. As computational power becomes concentrated in a smaller number of companies, Winstein advocates for a shared language of “computational truths,” defining computations precisely so results are reproducible and auditable. His research group hopes this will lead to greater transparency and accountability in the cloud and, ultimately, to greater confidence in the computations that companies do every day on our behalf. The truth matters, Winstein tells host Russ Altman on this episode of Stanford Engineering’s The Future of Everything podcast. Have a question for Russ? Send it our way in writing or via voice memo, and it might be featured on an upcoming episode. Please introduce yourself, let us know where you're listening from, and share your question. You can send questions to thefutureofeverything@stanford.edu. Episode Reference Links: Stanford Profile: Keith Winstein Connect With Us: Episode Transcripts >>> The Future of Everything WebsiteConnect with Russ >>> Threads / Bluesky / MastodonConnect with School of Engineering >>> Twitter/X / Instagram / LinkedIn / Facebook Chapters: (00:00:00) Introduction Russ Altman introduces guest Keith Winstein, a professor of computer science and electrical engineering at Stanford University (00:02:56) Why Choose Networking The appeal of the shared digital “fictions” created by connected computers. (00:04:22) The Internet’s Impact The broader societal implications of networking technologies. (00:05:35) Computational Truth The concept of tracking how data is produced and verified. (00:09:18) Misaligned Cloud Computing How “pay for effort” models create inefficiencies in cloud systems. (00:13:51) Determining Computational Truth The need for verifiable computation that produces consistent results. (00:18:19) Computations & Accountability How identifying computations could improve trust in systems. (00:20:56) Collaborating Online Why latency challenges make online performance collaboration difficult. (00:24:38) Real-Time Performance Systems Creating a custom system for musicians to perform together online. (00:28:00) Latency vs. Bandwidth Why faster internet speeds don’t necessarily reduce delay. (00:30:43) Eliminating Latency How buffering layers in software create unnecessary delay. (00:32:41) Balancing Audio Quality & Delay The different trade-offs for musicians, actors, and audiences. (00:34:20) Rethinking Computer Science Education The need to bring playfulness and interactivity back into learning. (00:35:46) The Xylophone-Based Class Teaching computation through real-time sound and music. (00:38:34) Future In a Minute Rapid-fire Q&A: optimism, truth in computing, and innovation. (00:41:01) Conclusion Connect With Us:Episode Transcripts >>> The Future of Everything WebsiteConnect with Russ >>> Threads / Bluesky / MastodonConnect with School of Engineering >>>Twitter/X / Instagram / LinkedIn / Facebook Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.
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    42 m
  • Best of: The future of plant chemistry

    Best of: The future of plant chemistry
    Apr 3 2026
    April is Earth Month, and in appreciation of the plant life all around us, we’re re-running a conversation we had with Beth Sattely last year on the future of plant chemistry. Beth reminds us that plants are more than food or pretty things to look at — they have the potential to help us fight climate change or even cancer. We hope you’ll take another listen and join us in learning more about how plants can positively impact environmental and human health. Have a question for Russ? Send it our way in writing or via voice memo, and it might be featured on an upcoming episode. Please introduce yourself, let us know where you're listening from, and share your question. You can send questions to thefutureofeverything@stanford.edu. Episode Reference Links: Stanford Profile: Elizabeth Sattely Connect With Us: Episode Transcripts >>> The Future of Everything WebsiteConnect with Russ >>> Threads / Bluesky / MastodonConnect with School of Engineering >>> Twitter/X / Instagram / LinkedIn / Facebook Chapters: (00:00:00) Introduction Russ Altman introduces guest Beth Sattely, a professor of chemical engineering at Stanford University. (00:01:28) Path to Plant Metabolism How chemistry and gardening led to a career in plant science. (00:02:12) Environmental & Human Health Using plants to improve both the planet and people’s well-being. (00:03:11) Engineering Climate-Resilient Crops Making crops more sustainable and nutritious amid global change. (00:04:16) Old vs. New Crop Engineering Comparing traditional breeding with modern molecular tools. (00:06:22) Industry & Long-Term Food Security The gap between short-term market goals and long-term environmental needs. (00:07:31) Tomato Chemistry Tomatoes reveal how plants produce protective molecules under stress. (00:10:44) Plant “Vaccines” & Immune Signaling How plants communicate threats internally and mount chemical defenses. (00:12:32) Citrus Greening & Limonoids The potential role of limonoid research on citrus greening. (00:15:17) Plants Making Medicine How plants like Yew trees naturally produce cancer drugs like Taxol. (00:19:37) Diet as Preventative Medicine Identifying plant molecules to understand their preventative health effects. (00:22:54) Food Allergies & Plant Chemistry Why the immune system tolerates some foods and rejects others. (00:25:00) Understanding Tolerance in Immunity Possibility of reintroducing tolerance through partial molecular exposure. (00:26:20) Engineering Healthier Plants Potential for designing plants to enhance micronutrient content. (00:27:58) Training the Next Generation Beth celebrates her students’ role in shaping a sustainable future. (00:28:57) Conclusion Connect With Us:Episode Transcripts >>> The Future of Everything WebsiteConnect with Russ >>> Threads / Bluesky / MastodonConnect with School of Engineering >>>Twitter/X / Instagram / LinkedIn / Facebook Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.
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    30 m
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