On this episode of ID the Future we hear a neurosurgeon’s view on materialistic bias afflicting the entire field of neuroscience. It’s a bias, he argues, that leads some scientists to misunderstand the meaning of their experiments. Darwinists “allergic to teleology” ignore clear evidence that purpose is essential to the mind. This talk is bonus material accompanying the action-filled and thought provoking series of short videos on science and materialism at scienceuprising.com.
On this episode of ID the Future we hear bonus material on the mind from the Discovery Institute’s new Science Uprising video series. Materialist philosophy says we’re no more than our brains; that we’re wet robots, in essence. Also, scientism, rooted in materialism, holds that science is the only path to knowledge. Here, a distinguished research neuroscientist take on those dogmatic claims and discusses some clinical evidence that mind is not reducible to the brain.
On this episode of ID The Future, neurosurgery professor Michael Egnor explores the case of Tatiana and Krista, the “Craniopagus Twins.” Their condition, he says, provides evidence against strict materialism. Tatiana and Krista are connected at the thalamus (which controls such things as wakefulness, motor function and vision) through a structure called a thalamic bridge. This bridge enables them to see through each other’s eyes to and control each other’s limbs. Egnor explains how their separate personalities and thoughts nevertheless show that there is something about the mind not reducible to the brain. Egnor also goes through the mind-brain research of Roger Sperry, Benjamin Libet and Wilder Penfield.
On this episode of ID The Future, host Ray Bohlin talks with Michael Egnor, a pediatric neurosurgeon and professor of neurosurgery at State University of New York Stony Brook about ways modern science validates the idea that the mind is not reducible to the brain. They delve into oddities of neuroscience that indicate that there is more going on in the brain than mere chemistry, and, in particular, walk through the seminal work of Adrian Owen on MRIs and what it reveals.