Podcasts about science show id

Learn about the California Transformative Climate Communities Program by taking a journey with UCLA into three communities - Fresno, Ontario and Watts - leading comprehensive, collaborative, equitable, and innovative climate action that changes lives. [Science] [Show ID: 40150]

Learn about the California Transformative Climate Communities Program by taking a journey with UCLA into three communities - Fresno, Ontario and Watts - leading comprehensive, collaborative, equitable, and innovative climate action that changes lives. [Science] [Show ID: 40150]

Learn about the California Transformative Climate Communities Program by taking a journey with UCLA into three communities - Fresno, Ontario and Watts - leading comprehensive, collaborative, equitable, and innovative climate action that changes lives. [Science] [Show ID: 40150]

Learn about the California Transformative Climate Communities Program by taking a journey with UCLA into three communities - Fresno, Ontario and Watts - leading comprehensive, collaborative, equitable, and innovative climate action that changes lives. [Science] [Show ID: 40150]

Bioengineering, also known as biomedical engineering, is a multidisciplinary field that applies principles and methods of engineering, biology, and medicine to solve problems and develop technologies related to healthcare and biology. Bioengineers design and create a wide range of medical devices, pharmaceuticals, and therapeutic techniques. They work on projects such as artificial organs, medical imaging systems, drug delivery systems, tissue engineering, genetic engineering, and more. UC San Diego Jacobs School of Engineering Dean Al Pisano shares a conversation with the founding chair of the Department of Bioengineering, Dr. Shu Chien, and local bioengineering entrepreneur Dr. Gene Lay discussing the impact of bioengineering and how the field continues to drive innovation in medicine, improve patient outcomes, enhance quality of life, and is shaping the future of healthcare. [Science] [Show ID: 39399]

Bioengineering, also known as biomedical engineering, is a multidisciplinary field that applies principles and methods of engineering, biology, and medicine to solve problems and develop technologies related to healthcare and biology. Bioengineers design and create a wide range of medical devices, pharmaceuticals, and therapeutic techniques. They work on projects such as artificial organs, medical imaging systems, drug delivery systems, tissue engineering, genetic engineering, and more. UC San Diego Jacobs School of Engineering Dean Al Pisano shares a conversation with the founding chair of the Department of Bioengineering, Dr. Shu Chien, and local bioengineering entrepreneur Dr. Gene Lay discussing the impact of bioengineering and how the field continues to drive innovation in medicine, improve patient outcomes, enhance quality of life, and is shaping the future of healthcare. [Science] [Show ID: 39399]

Bioengineering, also known as biomedical engineering, is a multidisciplinary field that applies principles and methods of engineering, biology, and medicine to solve problems and develop technologies related to healthcare and biology. Bioengineers design and create a wide range of medical devices, pharmaceuticals, and therapeutic techniques. They work on projects such as artificial organs, medical imaging systems, drug delivery systems, tissue engineering, genetic engineering, and more. UC San Diego Jacobs School of Engineering Dean Al Pisano shares a conversation with the founding chair of the Department of Bioengineering, Dr. Shu Chien, and local bioengineering entrepreneur Dr. Gene Lay discussing the impact of bioengineering and how the field continues to drive innovation in medicine, improve patient outcomes, enhance quality of life, and is shaping the future of healthcare. [Science] [Show ID: 39399]

Bioengineering, also known as biomedical engineering, is a multidisciplinary field that applies principles and methods of engineering, biology, and medicine to solve problems and develop technologies related to healthcare and biology. Bioengineers design and create a wide range of medical devices, pharmaceuticals, and therapeutic techniques. They work on projects such as artificial organs, medical imaging systems, drug delivery systems, tissue engineering, genetic engineering, and more. UC San Diego Jacobs School of Engineering Dean Al Pisano shares a conversation with the founding chair of the Department of Bioengineering, Dr. Shu Chien, and local bioengineering entrepreneur Dr. Gene Lay discussing the impact of bioengineering and how the field continues to drive innovation in medicine, improve patient outcomes, enhance quality of life, and is shaping the future of healthcare. [Science] [Show ID: 39399]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

The American Physical Society has designated UC San Diego's Mayer Hall as a historic site in recognition of research conducted by physicists Walter Kohn and Lu Jeu Sham on density functional theory. Their development of the "Kohn-Sham equation" inside Mayer Hall became the foundation for the computation of the material properties of electrons and nuclei. Understanding the electronic properties of complex systems is essential to the design and engineering of new materials and drugs. Kohn and Pierre Hohenberg on sabbatical in Paris developed a theorem for the electron ground state energy to depend on the electron density distribution instead of the usual potential energy due to the nuclei. In Building C (later named Mayer Hall), from 1964-66, Kohn and Sham laid the foundation of a computation method, based on a single-particle equation composed of its quantum kinetic energy and the potential energy including the interaction effects. That became the basis for computation of material properties of the electrons and the nuclei. For this work, Kohn received the 1998 Nobel Prize in Chemistry. [Science] [Show ID: 38313]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Catherine Lucey, MD is Vice Dean for Education and Executive Vice Dean for the UCSF School of Medicine. In her education role, she directs the undergraduate, graduate and continuing medical education programs of the School of Medicine. In her role as Executive Vice Dean, she serves on the executive management team for the Schools Differences Matters Initiative and oversees other strategic initiatives for the medical school and the campus. At UCSF, she led a major revamp of the medical school curriculum, placing more emphasis on the skills needed for 21st century physicians and lifelong learners. Series: "Women in Science" [Show ID: 35444]

Metals are vital to life functions. We have iron zinc and copper in us – but in the ocean is different. We know that organism evolve against the chemical constraints of their environments and Allison Butler looks at what kind of metalloenzymes are present in marine organisms. Series: "Women in Science" [Show ID: 35266]

Metals are vital to life functions. We have iron zinc and copper in us – but in the ocean is different. We know that organism evolve against the chemical constraints of their environments and Allison Butler looks at what kind of metalloenzymes are present in marine organisms. Series: "Women in Science" [Show ID: 35266]

Metals are vital to life functions. We have iron zinc and copper in us – but in the ocean is different. We know that organism evolve against the chemical constraints of their environments and Allison Butler looks at what kind of metalloenzymes are present in marine organisms. Series: "Women in Science" [Show ID: 35266]

Metals are vital to life functions. We have iron zinc and copper in us – but in the ocean is different. We know that organism evolve against the chemical constraints of their environments and Allison Butler looks at what kind of metalloenzymes are present in marine organisms. Series: "Women in Science" [Show ID: 35266]

Metals are vital to life functions. We have iron zinc and copper in us – but in the ocean is different. We know that organism evolve against the chemical constraints of their environments and Allison Butler looks at what kind of metalloenzymes are present in marine organisms. Series: "Women in Science" [Show ID: 35266]

Metals are vital to life functions. We have iron zinc and copper in us – but in the ocean is different. We know that organism evolve against the chemical constraints of their environments and Allison Butler looks at what kind of metalloenzymes are present in marine organisms. Series: "Women in Science" [Show ID: 35266]

There are only two Northern White Rhinos left on the planet. How can we reverse extinction to save them and use the lessons learned to help other endangered species? Marisa L. Korody, PhD of the San Diego Zoo Institute for Conservation Research shares how scientists are using the latest in stem cell technology for a genetic rescue. Series: "Women in Science" [Show ID: 35227]

There are only two Northern White Rhinos left on the planet. How can we reverse extinction to save them and use the lessons learned to help other endangered species? Marisa L. Korody, PhD of the San Diego Zoo Institute for Conservation Research shares how scientists are using the latest in stem cell technology for a genetic rescue. Series: "Women in Science" [Show ID: 35227]

There are only two Northern White Rhinos left on the planet. How can we reverse extinction to save them and use the lessons learned to help other endangered species? Marisa L. Korody, PhD of the San Diego Zoo Institute for Conservation Research shares how scientists are using the latest in stem cell technology for a genetic rescue. Series: "Women in Science" [Show ID: 35227]

There are only two Northern White Rhinos left on the planet. How can we reverse extinction to save them and use the lessons learned to help other endangered species? Marisa L. Korody, PhD of the San Diego Zoo Institute for Conservation Research shares how scientists are using the latest in stem cell technology for a genetic rescue. Series: "Women in Science" [Show ID: 35227]

There are only two Northern White Rhinos left on the planet. How can we reverse extinction to save them and use the lessons learned to help other endangered species? Marisa L. Korody, PhD of the San Diego Zoo Institute for Conservation Research shares how scientists are using the latest in stem cell technology for a genetic rescue. Series: "Women in Science" [Show ID: 35227]

There are only two Northern White Rhinos left on the planet. How can we reverse extinction to save them and use the lessons learned to help other endangered species? Marisa L. Korody, PhD of the San Diego Zoo Institute for Conservation Research shares how scientists are using the latest in stem cell technology for a genetic rescue. Series: "Women in Science" [Show ID: 35227]

Stochasticity (randomness) is ubiquitous in biological systems. Linda Petzold explores some of the ways in which it arises and is used to advantage by biological systems, at a wide range of scales. Petzold is a professor in the UCSB Departments of Mechanical Engineering and Computer Science. Series: "Women in Science" [Show ID: 35173]

Stochasticity (randomness) is ubiquitous in biological systems. Linda Petzold explores some of the ways in which it arises and is used to advantage by biological systems, at a wide range of scales. Petzold is a professor in the UCSB Departments of Mechanical Engineering and Computer Science. Series: "Women in Science" [Show ID: 35173]

Stochasticity (randomness) is ubiquitous in biological systems. Linda Petzold explores some of the ways in which it arises and is used to advantage by biological systems, at a wide range of scales. Petzold is a professor in the UCSB Departments of Mechanical Engineering and Computer Science. Series: "Women in Science" [Show ID: 35173]

Stochasticity (randomness) is ubiquitous in biological systems. Linda Petzold explores some of the ways in which it arises and is used to advantage by biological systems, at a wide range of scales. Petzold is a professor in the UCSB Departments of Mechanical Engineering and Computer Science. Series: "Women in Science" [Show ID: 35173]

Stochasticity (randomness) is ubiquitous in biological systems. Linda Petzold explores some of the ways in which it arises and is used to advantage by biological systems, at a wide range of scales. Petzold is a professor in the UCSB Departments of Mechanical Engineering and Computer Science. Series: "Women in Science" [Show ID: 35173]

Understanding how the brain works has traditionally been undertaken by men and about men but cognitive neuroscientist Emily Jacobs argues that diversity of researchers and their research is what drives science innovation. She discusses several studies undertaken in her lab so that questions about the brain can benefit women and men equally. Series: "Women in Science" [Show ID: 35172]

Understanding how the brain works has traditionally been undertaken by men and about men but cognitive neuroscientist Emily Jacobs argues that diversity of researchers and their research is what drives science innovation. She discusses several studies undertaken in her lab so that questions about the brain can benefit women and men equally. Series: "Women in Science" [Show ID: 35172]

Understanding how the brain works has traditionally been undertaken by men and about men but cognitive neuroscientist Emily Jacobs argues that diversity of researchers and their research is what drives science innovation. She discusses several studies undertaken in her lab so that questions about the brain can benefit women and men equally. Series: "Women in Science" [Show ID: 35172]

Understanding how the brain works has traditionally been undertaken by men and about men but cognitive neuroscientist Emily Jacobs argues that diversity of researchers and their research is what drives science innovation. She discusses several studies undertaken in her lab so that questions about the brain can benefit women and men equally. Series: "Women in Science" [Show ID: 35172]

Understanding how the brain works has traditionally been undertaken by men and about men but cognitive neuroscientist Emily Jacobs argues that diversity of researchers and their research is what drives science innovation. She discusses several studies undertaken in her lab so that questions about the brain can benefit women and men equally. Series: "Women in Science" [Show ID: 35172]

Understanding how the brain works has traditionally been undertaken by men and about men but cognitive neuroscientist Emily Jacobs argues that diversity of researchers and their research is what drives science innovation. She discusses several studies undertaken in her lab so that questions about the brain can benefit women and men equally. Series: "Women in Science" [Show ID: 35172]

Extremely sensitive to shifts in temperature, the ochre sea star is considered a “keystone species” for monitoring the effect of changing air and ocean temperatures on California’s marine life. Eric Sanford of the UC Davis Bodega Bay Marine Lab puts these beautiful creatures to the test, using their appetite for mussels as the yardstick. Series: "UCTV Prime cuts" [Science] [Show ID: 24211]

Extremely sensitive to shifts in temperature, the ochre sea star is considered a “keystone species” for monitoring the effect of changing air and ocean temperatures on California’s marine life. Eric Sanford of the UC Davis Bodega Bay Marine Lab puts these beautiful creatures to the test, using their appetite for mussels as the yardstick. Series: "UCTV Prime cuts" [Science] [Show ID: 24211]

Extremely sensitive to shifts in temperature, the ochre sea star is considered a “keystone species” for monitoring the effect of changing air and ocean temperatures on California’s marine life. Eric Sanford of the UC Davis Bodega Bay Marine Lab puts these beautiful creatures to the test, using their appetite for mussels as the yardstick. Series: "UCTV Prime cuts" [Science] [Show ID: 24211]

Extremely sensitive to shifts in temperature, the ochre sea star is considered a “keystone species” for monitoring the effect of changing air and ocean temperatures on California’s marine life. Eric Sanford of the UC Davis Bodega Bay Marine Lab puts these beautiful creatures to the test, using their appetite for mussels as the yardstick. Series: "UCTV Prime cuts" [Science] [Show ID: 24211]

Extremely sensitive to shifts in temperature, the ochre sea star is considered a “keystone species” for monitoring the effect of changing air and ocean temperatures on California’s marine life. Eric Sanford of the UC Davis Bodega Bay Marine Lab puts these beautiful creatures to the test, using their appetite for mussels as the yardstick. Series: "UCTV Prime cuts" [Science] [Show ID: 24211]

Extremely sensitive to shifts in temperature, the ochre sea star is considered a “keystone species” for monitoring the effect of changing air and ocean temperatures on California’s marine life. Eric Sanford of the UC Davis Bodega Bay Marine Lab puts these beautiful creatures to the test, using their appetite for mussels as the yardstick. Series: "UCTV Prime cuts" [Science] [Show ID: 24211]

This documentary produced by the UCLA Geography department explores new methods of climate modeling that allow researchers to predict the future climate of Tibet. [Science] [Show ID: 34462]

This documentary produced by the UCLA Geography department explores new methods of climate modeling that allow researchers to predict the future climate of Tibet. [Science] [Show ID: 34462]

This documentary produced by the UCLA Geography department explores new methods of climate modeling that allow researchers to predict the future climate of Tibet. [Science] [Show ID: 34462]

This documentary produced by the UCLA Geography department explores new methods of climate modeling that allow researchers to predict the future climate of Tibet. [Science] [Show ID: 34462]

Exploration of the Los Angeles drought and the effects of El Nino on the water supply in California. [Science] [Show ID: 31663]

Exploration of the Los Angeles drought and the effects of El Nino on the water supply in California. [Science] [Show ID: 31663]

William Gerwick and Paul Jensen of the Scripps Institution of Oceanography at UC San Diego present their research on marine biomedicine and marine drug discovery. Series: "Cavendish Global Impact Forum 2015" [Science] [Show ID: 29679]

William Gerwick and Paul Jensen of the Scripps Institution of Oceanography at UC San Diego present their research on marine biomedicine and marine drug discovery. Series: "Cavendish Global Impact Forum 2015" [Science] [Show ID: 29679]

Modeling climate change and how fast species will have to move to endure changes in climate. Series: "UCTV Prime cuts" [Science] [Show ID: 24608]

Modeling climate change and how fast species will have to move to endure changes in climate. Series: "UCTV Prime cuts" [Science] [Show ID: 24608]

If you're a chamber music fan and you find Wigmore, Alice Tully and Carnegie halls not nearly exclusive enough, consider UCLA's Clark Library. Since 1994, the beloved rare-book library in Los Angeles' West Adams district has featured the same talent as the best-known music halls in the world, in the kind of intimate setting for which chamber music was conceived. All Chamber Music at the Clark concerts are presented in a sumptuous, acoustically superlative 100-seat drawing room — just like L.A. Philharmonic founder William Andrews Clark Jr. wanted it. Series: "UCTV Prime cuts" [Science] [Show ID: 24213]

If you're a chamber music fan and you find Wigmore, Alice Tully and Carnegie halls not nearly exclusive enough, consider UCLA's Clark Library. Since 1994, the beloved rare-book library in Los Angeles' West Adams district has featured the same talent as the best-known music halls in the world, in the kind of intimate setting for which chamber music was conceived. All Chamber Music at the Clark concerts are presented in a sumptuous, acoustically superlative 100-seat drawing room — just like L.A. Philharmonic founder William Andrews Clark Jr. wanted it. Series: "UCTV Prime cuts" [Science] [Show ID: 24213]

If you're a chamber music fan and you find Wigmore, Alice Tully and Carnegie halls not nearly exclusive enough, consider UCLA's Clark Library. Since 1994, the beloved rare-book library in Los Angeles' West Adams district has featured the same talent as the best-known music halls in the world, in the kind of intimate setting for which chamber music was conceived. All Chamber Music at the Clark concerts are presented in a sumptuous, acoustically superlative 100-seat drawing room — just like L.A. Philharmonic founder William Andrews Clark Jr. wanted it. Series: "UCTV Prime cuts" [Science] [Show ID: 24213]

If you're a chamber music fan and you find Wigmore, Alice Tully and Carnegie halls not nearly exclusive enough, consider UCLA's Clark Library. Since 1994, the beloved rare-book library in Los Angeles' West Adams district has featured the same talent as the best-known music halls in the world, in the kind of intimate setting for which chamber music was conceived. All Chamber Music at the Clark concerts are presented in a sumptuous, acoustically superlative 100-seat drawing room — just like L.A. Philharmonic founder William Andrews Clark Jr. wanted it. Series: "UCTV Prime cuts" [Science] [Show ID: 24213]

From UC San Diego’s Englekirk Structural Engineering Center comes this preview of the largest, most complex seismic test ever conducted, designed to test nonstructural systems in hospitals including the first-time-ever seismic test of a working elevator and fire testing. [Science] [Show ID: 23626]

From UC San Diego’s Englekirk Structural Engineering Center comes this preview of the largest, most complex seismic test ever conducted, designed to test nonstructural systems in hospitals including the first-time-ever seismic test of a working elevator and fire testing. [Science] [Show ID: 23626]

UC Santa Cruz biomolecular engineer Ed Green presents evidence that humans and Neandertals interbred thousands of years ago, as Guy Lasnier reports in the Winter 2011 edition of “State of Minds.” [Science] [Show ID: 21177]

UC Santa Cruz biomolecular engineer Ed Green presents evidence that humans and Neandertals interbred thousands of years ago, as Guy Lasnier reports in the Winter 2011 edition of “State of Minds.” [Science] [Show ID: 21177]