Solving Impossible Problems for Fun and Profit | Dan Gelbart
How do engineers solve problems that seem to violate the laws of physics? In this episode, we speak with Dan Gelbart, a prolific inventor and precision engineer, about what it really means to work at the limits of physical law. From lasers and optical systems to ultra-precision manufacturing and semiconductor tools, Gelbart has spent decades designing systems where nanometers, noise, and nonlinearities matter, and where small misunderstandings of physics can block real progress. We discuss the story of the first working laser, built by Theodore Maiman, and why it succeeded only after questioning widely accepted assumptions. Gelbart explains how many “impossible” engineering problems aren’t forbidden by physics at all: they’re constrained by measurement errors, incomplete models, or failure to explore edge cases like pulsed operation, material effects, and boundary conditions. We explore precision metrology, high-resolution imaging for satellite systems, the culture of engineering education, and the difference between a true physical limit and a design constraint. Gelbart reflects on why mastering fundamentals, mechanics, optics, electromagnetism, matters more than chasing trends, and how breakthroughs often come from carefully re-examining what others assume cannot be done. Whether you’re interested in physics, engineering, semiconductor manufacturing, lasers, or the philosophy of technological innovation, this conversation offers a rigorous look at how engineers operate at the edge of what nature allows, and sometimes push beyond what others think is possible. Follow us for more technical interviews with the world’s greatest scientists: Twitter: https://x.com/632nmPodcast Instagram: https://www.instagram.com/632nmpodcas... LinkedIn: / about Substack: https://632nmpodcast.substack.com/ Follow our hosts! Mikhail Shalaginov: https://x.com/MYShalaginov Michael Dubrovsky: https://x.com/MikeDubrovsky Xinghui Yin: https://x.com/XinghuiYin Subscribe: Apple Podcasts: https://podcasts.apple.com/us/podcast... Spotify: https://open.spotify.com/show/4aVH9vT... Website: [https://www.632nm.com](https://www.632nm.com/) Timestamps: 00:00 - Intro 01:35 - The World’s First Laser 07:53 - Solving Impossible Problems 23:37 - Underestimated Problems 39:36 - Dan’s Backstory 43:33 - How to Teach Yourself Anything 47:03 - Shortcomings of Modern Education 53:19 - Developing the Optical Tape Recorder 1:01:39 - Machine Obsolescence 1:08:04 - Why are Scientists Often Bad Businessmen? 1:15:17 - Developing Medical Devices 1:24:52 - Untapped Potential of Materials Science 1:30:47 - Accidental Inventions 1:35:37 - Surviving Bureaucracy 1:42:27 - Humanoid Robots 1:44:11 - Managing an Engineering Team 1:50:06 - Developing the First Good Mobile Data Terminal 1:54:15 - Building an Environment for Solving Problems 2:02:18 - Why Aren’t We Inventing New Things? #machining #cnc #precisionengineering #metrology #machineshop

How Neurons Translate Electricity into Chemistry | Tom Südhof

Unusual shop tips Part 2

Creator of C++: Bell Labs, Negative Overhead Abstraction, Mistakes | Bjarne Stroustrup

09 Summary of Sensors, Limits of Accuracy, and Unusual Sensors

Why is This the Scariest Chart in Electrical Engineering?

The Physicist Who Uncovered "Negative" Time

This Battery Lasts for 30 Years And China Just Put It on the Grid

The Uncomfortable Truth About AI “Reasoning” | World Science Festival

Dan Gelbart Workshop Tour HD

General relativity from first principles – Adam Brown

Recreating Dan Gelbart's Bending Brake, Part1

The Professor Who Taught People How To Think (1962)

Prototyping - Metal 3D Printing

Silicon Photonics and the Future of AI Scaling | John Bowers

The Closest Airbus Came to a MAX Crash | The Strange Story Of Lufthansa Flight 1829

Jim Chanos: The AI Bubble Is “Much Worse” Than Dot-Com

Building Prototypes Dan Gelbart part 17 of 18 High Accuracy

Bioelectricity, Morphogenesis, and Two-Headed Worms | Michael Levin

What James Webb Saw at the Universe's Edge — It's Not Good

