100 Books Like Air and Water

I’ve been teaching physics applied to biology for decades. When working at the National Institutes of Health, I realized that most biologists don’t know physics. While I appreciate the complexity that evolution generates, I find the simplicity and generality of physics in explaining life to be amazing and captivating. When I taught biological physics to undergraduates at Oakland University, I strived to find elementary “toy” models that the students could analyze and that provided valuable insight. The books on this list all adopt a similar point of view: physics provides unity to the diversity of life.

I’ve been teaching physics applied to biology for decades. When working at the National Institutes of Health, I realized that most biologists don’t know physics. While I appreciate the complexity that evolution generates, I find the simplicity and generality of physics in explaining life to be amazing and captivating. When I taught biological physics to undergraduates at Oakland University, I strived to find elementary “toy” models that the students could analyze and that provided valuable insight. The books on this list all adopt a similar point of view: physics provides unity to the diversity of life.

I have taught undergraduate and PhD students physics and biophysics for 36 years, and I never get tired of it. I always look for hot new topics and everyday things that we all see but rarely notice as interesting. I also look for “how could anything like that possibly happen at all?”-type questions and the eureka moment when some idea from physics or math pries off the lid, making a seemingly insoluble problem easy. Finally, I look for the skills and frameworks that will open the most doors to students in their future work.

I’ve been teaching physics applied to biology for decades. When working at the National Institutes of Health, I realized that most biologists don’t know physics. While I appreciate the complexity that evolution generates, I find the simplicity and generality of physics in explaining life to be amazing and captivating. When I taught biological physics to undergraduates at Oakland University, I strived to find elementary “toy” models that the students could analyze and that provided valuable insight. The books on this list all adopt a similar point of view: physics provides unity to the diversity of life.

I spent the first decade of my journalistic career focused on calamity, malevolence, and suffering. By my early thirties, I wasn’t just struggling to feel happy about the world — I was struggling to feel anything at all. It was an encounter with awe — a visit to an aspen colony in central Utah that is the world’s largest known singular organism — that jarred me from this increasingly colorless world. As an author, teacher, researcher, and radio host, I strive to connect others with a sense of wonder — and I feel very fortunate that so many other science communicators continually leave me feeling awestruck for this amazing world.  

An accident of professional life led us, Jean-Paul Vanbremeersch and Andrée Ehresmann, to meet in 1979. Jean-Paul was then a young physician who was also interested in problems of emergence and complexity. Andrée was a mathematician working in Analysis and, more recently, in Category Theory with Charles Ehresmann (her late husband). With Charles, she shared the idea that: “a category theory approach could open a wealth of possibilities to the understanding of complex processes of any kind.”This idea appealed to Jean-Paul who suggested that we both try applying it to problems of emergence, complexity, and cognition. It led to our 40 years old development of MES. 

I'm a philosopher and psychotherapist, with a Ph.D. in Philosophy from Princeton. From the beginning of my work in philosophy, I have been interested in the nature of agency: what is it to be an agent, and how is agency even possible in the first place? These questions naturally drew me to the metaphysics of free will, as well as related topics in the logic and semantics of agentive modality (that is, the kind of possibility and necessity that is characteristic of agents). Much of my recent work has been on more clinical issues, especially on understanding addiction. I continue to be fascinated by fundamental topics in metaphysics, and especially the question of free will.

I am a professor of philosophy at Wake Forest University, with a Ph.D. in philosophy from the University of Massachusetts at Amherst. I teach courses in the philosophy of space and time, the history of philosophy, and the philosophy of science. In addition to several authored and edited books on the philosophy of time, I have published many scholarly articles on time, perception, knowledge, and the history of the philosophy of time. I have always been attracted to the philosophy of time because time is quite simply at the root of everything: through the study of time we confront and illuminate the deepest possible questions both as to the nature of the physical world and as to the nature of human existence.

Years of teaching Verbal First Aid™, hypnotic language for healing, only whet my curiosity for Non-Verbal First Aid. I love mysticism and magic, and I love science and evidence. When the two work together to illuminate profound understandings, I am such a fan. Just imagine this if you can: Dolphins’ visual and aural nerves connect so that when they send out sound beams of echolocation, it comes back as an ultra-sound-looking picture, which they can send to other dolphins! Magic and science are used by them for healing, as well. How could one NOT investigate further and be passionate about this subject?

I got hooked on superheroes from a very early age. My mom grew up in the Golden Age of comics and loved superheroes. She'd bring home a random assortment of adventures—Batman, Iron Man, Flash, Avengers, Justice League, Iron Fist, Captain America. I was especially keen on the martial arts mayhem so many could bring to bear. That got me started (and I've never stopped since) in martial arts as a teen and took me into a career in science. I bring my own interest, my knowledge of martial arts, and my extensive career and training as a sensorimotor neuroscientist as I explore the science of human achievement through the lens of comic book superheroes.