Podcasts about astrobiology and origins

Sometimes the most useful tools are unexpected and this might be said of Professor Sarah Stewart’s Shock Compression laboratory, where huge cannons are fired (indoors) to study the early history of our Solar System. Series: "UCTV Prime" [Science] [Show ID: 34579]

Sometimes the most useful tools are unexpected and this might be said of Professor Sarah Stewart’s Shock Compression laboratory, where huge cannons are fired (indoors) to study the early history of our Solar System. Series: "UCTV Prime" [Science] [Show ID: 34579]

Karin Sandstrom studies the interstellar medium - the dust and gas in galaxies and between stars, and especially how ultraviolet light interacts with soot-like polycyclic aromatic hydrocarbons. That, she says, is key to everything - how stars (and planets) form, how galaxies evolve, and perhaps how life emerged. Series: "Women in Science" [Science] [Show ID: 30014]

Karin Sandstrom studies the interstellar medium - the dust and gas in galaxies and between stars, and especially how ultraviolet light interacts with soot-like polycyclic aromatic hydrocarbons. That, she says, is key to everything - how stars (and planets) form, how galaxies evolve, and perhaps how life emerged. Series: "Women in Science" [Science] [Show ID: 30014]

Karin Sandstrom studies the interstellar medium - the dust and gas in galaxies and between stars, and especially how ultraviolet light interacts with soot-like polycyclic aromatic hydrocarbons. That, she says, is key to everything - how stars (and planets) form, how galaxies evolve, and perhaps how life emerged. Series: "Women in Science" [Science] [Show ID: 30014]

Karin Sandstrom studies the interstellar medium - the dust and gas in galaxies and between stars, and especially how ultraviolet light interacts with soot-like polycyclic aromatic hydrocarbons. That, she says, is key to everything - how stars (and planets) form, how galaxies evolve, and perhaps how life emerged. Series: "Women in Science" [Science] [Show ID: 30014]

Seven Berkeley Lab scientists present BIG ideas. Learn about the game-changing concepts scientists work on every day. Series: "Lawrence Berkeley National Laboratory " [Science] [Show ID: 25465]

Seven Berkeley Lab scientists present BIG ideas. Learn about the game-changing concepts scientists work on every day. Series: "Lawrence Berkeley National Laboratory " [Science] [Show ID: 25465]

Seven Berkeley Lab scientists present BIG ideas. Learn about the game-changing concepts scientists work on every day. Series: "Lawrence Berkeley National Laboratory " [Science] [Show ID: 25465]

Seven Berkeley Lab scientists present BIG ideas. Learn about the game-changing concepts scientists work on every day. Series: "Lawrence Berkeley National Laboratory " [Science] [Show ID: 25465]

E. Margaret Burbidge is considered to be one of the most renowned observational astronomers and astrophysicists of our time. She has been a co-investigator on the team to build the Faint Object Spectrograph for NASA's Hubble Space Telescope. Her earliest research work concerned chemical abundance in stars of various types and culminated in the now classic work Synthesis of the Elements in Stars by Burbidge, Burbidge, Fowler, and Hoyle (1957). The authors concluded that all the chemical elements were produced in stars. Series: "UC Berkeley Graduate Lectures" [Science] [Show ID: 23343]

E. Margaret Burbidge is considered to be one of the most renowned observational astronomers and astrophysicists of our time. She has been a co-investigator on the team to build the Faint Object Spectrograph for NASA's Hubble Space Telescope. Her earliest research work concerned chemical abundance in stars of various types and culminated in the now classic work Synthesis of the Elements in Stars by Burbidge, Burbidge, Fowler, and Hoyle (1957). The authors concluded that all the chemical elements were produced in stars. Series: "UC Berkeley Graduate Lectures" [Science] [Show ID: 23343]