Book Launch
Lunacy by Ben Bramble
Join The Book Cow as they host Ben Bramble for the launch of Lunacy. A compelling exploration of humanity’s future in space, Lunacy challenges the growing push for extraterrestrial colonization and argues that our greatest priority should be solving the problems here on Earth. Ben will be joined in conversation by Professor Joseph Hope of ANU.
6:00-7:00pm, Thursday 23 July
The Book Cow
47 Jardine St, Kingston ACT 2604
If certain business titans, corporations, and governments have their way, humans will someday be living, working, and vacationing in space. This is the much-vaunted New Space Age, and in Lunacy, philosopher Ben Bramble explains why it is a giant mistake. Bramble systematically refutes each of the ten most influential reasons given for this new generation of space exploration (and habitation), from the idea of Mars as a backup plan in case Earth meets an untimely end to the charms of friendship with extraterrestrials. Doing so, he reflects on deeper issues, exploring such questions as what the point of the human story is and what a good future for humanity would truly involve.
Bramble does not think we should get out of space entirely. On the contrary, he thinks that there is an important and exciting future in space science. Our activities in space, he tells us, should be animated by a curiosity about space itself rather than narrow economic or military interests.
Ben Bramble is lecturer in philosophy in the Fenner School of Environment and Society at the Australian National University and a mission specialist at ANU’s Institute for Space. He is the author of The Passing of Momentary Well-Being and Pandemic Ethics: 8 Big Questions of COVID-19. His op-eds have appeared in The New York Times, The Guardian, and The Sydney Morning Herald.
Joe Hope is an ARC Future Fellow who leads a theory group focussing on many aspects of quantum theory. He investigates atom lasers, BEC, quantum memories, atom-light entanglement and quantum field theoretical techniques. He is also interested in feedback-based control of atom lasers and other high-dimensional quantum systems.