Come get curious with NASA. As an official NASA podcast, Curious Universe brings you mind-blowing science and space adventures you won’t find anywhere else. Explore the cosmos alongside astronauts, scientists, engineers, and other top NASA experts. Learn something new about the wild and wonderful universe we share. All you need to get started is a little curiosity.
Come get curious with NASA. As an official NASA podcast, Curious Universe brings you mind-blowing science and space adventures you won’t find anywhere else. Explore the cosmos alongside astronauts, scientists, engineers, and other top NASA experts. Learn something new about the wild and wonderful universe we share. All you need to get started is a little curiosity.
How did life begin? It’s one of science’s biggest questions, but it’s impossible to answer on Earth, where ancient clues have been buried by the planet’s shifting surface. Instead, scientists are looking beyond our own planet to asteroids like Bennu, a distant fragment of a lost world. In 2023, NASA’s OSIRIS-REx spacecraft collected a sample of Bennu’s surface and brought it back to Earth. Ever since, scientists have been hard at work studying those pristine asteroid fragments. Now, they’re ready to reveal the results—our best look yet at a time capsule from the early solar system that once fostered the ingredients for life.
The Moon’s South Pole is a bizarre landscape. Mountain ridges glow in perpetual sunlight while deep craters freeze in billion-year-old shade. Yet hidden in the depths of those shadowed craters, under temperatures almost three times colder than the frostiest day in Antarctica, lurks something familiar–water ice. In the future, that ice could sustain human explorers or be broken apart into hydrogen and oxygen to refuel rockets. Join Brett Denevi, Artemis III geology team lead, to learn why NASA plans to land astronauts on the Moon’s South Pole later this decade. Then with Michelle Munk, NASA space technology chief architect, meet the robot Moon landers scouting ahead of Artemis which will drill beneath the regolith and test technologies designed to help future human explorers survive the Pole’s extreme conditions.
Black holes are mysterious, far away, and can bend the fabric of reality itself—but we're learning more about them all the time. Ronald Gamble, a NASA theoretical astrophysicist, uses math, computer coding, and a dash of creativity to peer inside some of the universe's most extreme objects. We'll explore what it would feel like to get pulled into a black hole and what people get wrong about black holes. And we'll answer questions from curious listeners, including, "What would happen if a black hole ate nothing but magnetized material?"
As climate change drives more frequent and intense tropical cyclones and hurricanes, coastal communities desperately need better tools to predict how bad storms will be and when and where they’ll strike—and to assess the damage afterward. From the air and in space, NASA and NOAA collect critical data as storms roll in. But what happens next? Fly directly into the eye of the storm with daring hurricane hunter pilots, meet meteorologists and data scientists building AI models to improve hurricane prediction, and join the disaster response experts helping cities pinpoint their hardest-hit neighborhoods. Plus, learn how NASA is making data open to everyone—including you, with Transform to Open Science.
