In this series, David Pogue explores the fantastic chemistry behind the everyday and sets out on a worldwide quest to find the key molecules and chemical reactions that have paved the way for human civilization, life, and even the universe as we know it. In the first episode, glass so strong you can jump on it, rubber so tough it protects a clay pot dropped from 50 feet, endless varieties of plastic. Scientists and engineers have created virtually indestructible versions of common materials by manipulating the chains of interlocking atoms that give them strength—but have they made them too tough?
This series traces the history of classic video games, featuring insights from the innovators who brought these worlds and characters to life. In the first episode, Space Invaders and Pac-Man lead an arcade craze, while Atari's cartridge system dominates home gaming until high-profile failure sparks a downfall.
Over the course of three nights at Hollywood's Pantages Theater in December 1983, filmmaker Jonathan Demme joined creative forces with Jordan Cronenweth and Talking Heads... and miracles occurred. Following a staging concept by singer-guitarist David Byrne, this euphoric concert film transcends that all-too-limited genre to become the greatest film of its kind. A guaranteed cure for anyone's blues, it's a celebration of music that never grows old, fueled by the polyrhythmic pop-funk precision that was a Talking Heads trademark, and lit from within by the geeky supernova that is David Byrne. This circus of musical pleasure defies the futility of reductive description; it begs to be experienced, felt in the heart, head, and bones, and held there the way we hold on to cherished memories. On those three nights in December 1983, Talking Heads gave love, life, and joy in generous amounts that years cannot erode, and Demme captured this act of creative goodwill on film with minimalist artistic perfection. Stop Making Sense is an invitation to pleasure that will never wear out its welcome.
The search for extraterrestrial life is an age-old quest. But recent breakthroughs make today an era like no other in the history of astronomy. From the exhilarating probing of our own solar system and the Kepler mission’s astounding discovery of thousands of extrasolar planets, to the next-generation telescopes under development, the prospects for finding life beyond Earth have never been stronger. Still, daunting hurdles remain. How can we study anything light years away, let alone a little planet? In the vast universe, where should we even start to look? Is our failure to hear any other voices in the galaxy a sign that we are special? Join leading explorers now searching the galaxy for life and intelligence on other planets—and asks, if we do find other life in the universe... what would that mean?
An alarming decline in insect populations could devastate all life on earth. What's causing it, and can anything be done to stop it? Insects are disappearing across the world. If we lost our pollinators, we would lose 80 to 90% of the plants on the planet. That is not an option. It's the ecosystems on this planet that keep humans alive. Scientists warn us that the insect apocalypse is entirely possible.
Predictions underlie nearly every aspect of our lives, from sports, politics, and medical decisions to the morning commute. With the explosion of digital technology, the internet, and 'big data,' the science of forecasting is flourishing. But why do some predictions succeed spectacularly while others fail abysmally? And how can we find meaningful patterns amidst chaos and uncertainty? From the glitz of casinos and TV game shows to the life-and-death stakes of storm forecasts and the flaws of opinion polls that can swing an election, 'Prediction by the Numbers' explores stories of statistics in action. Yet advances in machine learning and big data models that increasingly rule our lives are also posing big, disturbing questions. How much should we trust predictions made by algorithms when we don't understand how they arrive at them? And how far ahead can we really forecast?
In the first episode, glass so strong you can jump on it, rubber so tough it protects a clay pot dropped from 50 feet, endless varieties of plastic. Scientists and engineers have created virtually indestructible versions of common materials by manipulating the chains of interlocking atoms that give them strength—but have they made them too tough?