Podcasts about science: earth science

Do you have what it takes to earn the crown of The Great Geography Clues Game? You will be exploring the world, while given several clues along the way in order to guess the famous place or city in question. Take the quiz and then challenge your family and friends to beat your score. Good luck! Series: "STEAM: Adding Arts to STEM Education" [Education] [Show ID: 36022]

Katerina Semendeferi explores if the potential for conditions like autism is a part of the human mind's extraordinary capacities for intellect and social cognition. A class that trains college students to teach computer science to youngsters in informal space, and how the chemistry of water reveals its history. Series: "On Beyond" [Show ID: 35685]

Katerina Semendeferi explores if the potential for conditions like autism is a part of the human mind's extraordinary capacities for intellect and social cognition. A class that trains college students to teach computer science to youngsters in informal space, and how the chemistry of water reveals its history. Series: "On Beyond" [Show ID: 35685]

Katerina Semendeferi explores if the potential for conditions like autism is a part of the human mind's extraordinary capacities for intellect and social cognition. A class that trains college students to teach computer science to youngsters in informal space, and how the chemistry of water reveals its history. Series: "On Beyond" [Show ID: 35685]

Katerina Semendeferi explores if the potential for conditions like autism is a part of the human mind's extraordinary capacities for intellect and social cognition. A class that trains college students to teach computer science to youngsters in informal space, and how the chemistry of water reveals its history. Series: "On Beyond" [Show ID: 35685]

Katerina Semendeferi explores if the potential for conditions like autism is a part of the human mind's extraordinary capacities for intellect and social cognition. A class that trains college students to teach computer science to youngsters in informal space, and how the chemistry of water reveals its history. Series: "On Beyond" [Show ID: 35685]

Katerina Semendeferi explores if the potential for conditions like autism is a part of the human mind's extraordinary capacities for intellect and social cognition. A class that trains college students to teach computer science to youngsters in informal space, and how the chemistry of water reveals its history. Series: "On Beyond" [Show ID: 35685]

A program to provide real-world research opportunities to computer science students, discover what makes the California climate so unique, explore two University of California Natural Reserves and more, all on this edition of OnBeyond. Series: "On Beyond" [Show ID: 35683]

A program to provide real-world research opportunities to computer science students, discover what makes the California climate so unique, explore two University of California Natural Reserves and more, all on this edition of OnBeyond. Series: "On Beyond" [Show ID: 35683]

A program to provide real-world research opportunities to computer science students, discover what makes the California climate so unique, explore two University of California Natural Reserves and more, all on this edition of OnBeyond. Series: "On Beyond" [Show ID: 35683]

A program to provide real-world research opportunities to computer science students, discover what makes the California climate so unique, explore two University of California Natural Reserves and more, all on this edition of OnBeyond. Series: "On Beyond" [Show ID: 35683]

A program to provide real-world research opportunities to computer science students, discover what makes the California climate so unique, explore two University of California Natural Reserves and more, all on this edition of OnBeyond. Series: "On Beyond" [Show ID: 35683]

A program to provide real-world research opportunities to computer science students, discover what makes the California climate so unique, explore two University of California Natural Reserves and more, all on this edition of OnBeyond. Series: "On Beyond" [Show ID: 35683]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

In the fight against climate change, those with the least resources have been left behind. In the case of solar power, the vast majority of investment in the United States has gone to majority-white communities. This means not only are people of color losing out on the benefit of solar power, but society as a whole is losing out on potential advocates for clean energy. Dan Kammen, a professor at UC Berkeley's Goldman School of Public Policy is researching how we can reverse this trend and leapfrog toward clean energy for all. Series: "UC Public Policy Channel" [Show ID: 35619]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

Scientific drill ships allow scientists access to some of Earth's most challenging environments, collecting data and samples of sediment, rock, fluids and living organisms from below the seafloor. Join Scripps paleontologist Dick Norris to learn about the long running international collaboration in scientific ocean drilling that has transformed human understanding of our planet. Series: "Jeffrey B. Graham Perspectives on Ocean Science Lecture Series" [Show ID: 35178]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

California's recent drought has highlighted the need for a reliable source of water. Peter Stricker of SeaWell presents a reverse osmosis (RO) system to address climate-driven drought which is an entirely new approach to water supply. The SeaWell buoy is a self-contained floating vessel, moored to the sea floor, with seawater intake and brine diffusion outfall. It contains reverse osmosis equipment, electric power and water piping, and can permeate water at a rate of 950–3,800 acre-feet/year. The implementation plan is to deploy pilot SeaWell Buoys at a water cost already below the cost of State water,initially partnering with water districts to deploy five water portals. Landing sites could be chosen based in previously disturbed areas, such as decommissioned oil receiving facilities and sanitary district outfalls. These deployments will augment new water reuse projects, and share siting and infrastructure. Series: "Institute for Energy Efficiency" [Show ID: 35163]

Transformative field experiences at our 600-acre Fort Ord Natural Reserve are inspiring a new generation of natural scientists. The incredible outdoor classroom offers opportunities for students, scientists, and the community to learn about rare maritime chaparral habitats, threatened endemic species, land management, and conservation biology like never before. Series: "UCTV Prime" [Science] [Agriculture] [Show ID: 35253]

Transformative field experiences at our 600-acre Fort Ord Natural Reserve are inspiring a new generation of natural scientists. The incredible outdoor classroom offers opportunities for students, scientists, and the community to learn about rare maritime chaparral habitats, threatened endemic species, land management, and conservation biology like never before. Series: "UCTV Prime" [Show ID: 35253]

Transformative field experiences at our 600-acre Fort Ord Natural Reserve are inspiring a new generation of natural scientists. The incredible outdoor classroom offers opportunities for students, scientists, and the community to learn about rare maritime chaparral habitats, threatened endemic species, land management, and conservation biology like never before. Series: "UCTV Prime" [Science] [Agriculture] [Show ID: 35253]

Transformative field experiences at our 600-acre Fort Ord Natural Reserve are inspiring a new generation of natural scientists. The incredible outdoor classroom offers opportunities for students, scientists, and the community to learn about rare maritime chaparral habitats, threatened endemic species, land management, and conservation biology like never before. Series: "UCTV Prime" [Show ID: 35253]

Transformative field experiences at our 600-acre Fort Ord Natural Reserve are inspiring a new generation of natural scientists. The incredible outdoor classroom offers opportunities for students, scientists, and the community to learn about rare maritime chaparral habitats, threatened endemic species, land management, and conservation biology like never before. Series: "UCTV Prime" [Show ID: 35253]

The UC Santa Cruz Natural Reserve System supports long-term research and teaching on protected lands on more than 10,000 acres of natural lands at five natural reserves: Año Nuevo, Campus, Fort Ord, Landels-Hill Big Creek, and Younger Lagoon. Together, they function as living laboratories and formative outdoor classrooms for faculty, graduates, and undergraduates. Research at these reserves range from studying migratory patterns of marine animals, to understanding population dynamics of endangered species, to examining how invasive species and fire affect ecosystems. Series: "UCTV Prime" [Show ID: 35256]

The UC Santa Cruz Natural Reserve System supports long-term research and teaching on protected lands on more than 10,000 acres of natural lands at five natural reserves: Año Nuevo, Campus, Fort Ord, Landels-Hill Big Creek, and Younger Lagoon. Together, they function as living laboratories and formative outdoor classrooms for faculty, graduates, and undergraduates. Research at these reserves range from studying migratory patterns of marine animals, to understanding population dynamics of endangered species, to examining how invasive species and fire affect ecosystems. Series: "UCTV Prime" [Show ID: 35256]