Thinking On Paper: Technology, For Humans

Lithium and copper mining are central to the energy transition. From EV batteries and grid storage to copper wiring, solar power, wind turbines, and data centers, these minerals are essential.

But the environmental costs of mining, especially water use, local pollution, biodiversity loss, and community impact, are still difficult to measure.

In this episode, Jennifer Dunn, professor of chemical engineering at Northwestern University, joins us to explain how life cycle assessment can compare the environmental impact of different mines and supply chains. 

The conversation covers lithium brine mining, hard rock lithium mining, copper demand, critical minerals, mine permitting, local water stress, recycling, mining waste, battery supply chains, and the central question behind clean technology: can decarbonization scale without shifting environmental costs onto local communities?

--

Thinking on Paper is a technology podcast about AI, Space, quantum computing, science, and the systems shaping the future. 

🏠 Buy us a beer on Substack
🎧 Take us with you on Spotify
🎧 Remember steve jobs on APPLE
📺 Get the clips and outtakes on Instagram --

Chapters

(00:00) Disruptors & Curious Minds
(02:10) The Demand for Copper and Lithium
(02:57) Environmental Impact of Mining
(05:59) Water Consumption and Mining Methods
(08:30) Community Concerns and Local Impact
(11:29) Recycling and Wastewater Mining
(14:04) Life Cycle Assessments in Mining
(27:06) Understanding Emissions in Mining
(29:45) Life Cycle Assessment: A Comparative Approach
(34:05) Stakeholder Perspectives on Mining Impacts
(37:42) Technology and Transparency in Mining
(42:42) Consumer Awareness and Ethical Sourcing
(48:55) Challenges in Quantifying Social Impacts

Anders Sandberg discusses AGI, AI governance, AI safety, and human autonomy through the question of whether artificial intelligence could manage the world economy.

The conversation covers superintelligence, global coordination, legal systems, markets, AI control, human decision-making, evolutionary pressures in software, and whether highly efficient AI systems could leave humans wealthy but less free.
This is a short from a much longer conversation with Anders.

Please enjoy the show.

--
Thinking on Paper is a technology podcast about AI, quantum, space and their impacts on society, business and culture. It's very good.

🏠 Buy us a beer on Substack
🎧 Watch on YouTube
🎧 Remember Steve Jobs on APPLE
📺 Get the clips and outtakes on Instagram

Philip Metzger explains why moon dust, lunar regolith, and rocket exhaust create a serious problem for future Moon landings.

The conversation covers how lunar landers can blast high-speed dust across the Moon, damaging space hardware, telescopes, solar panels, antennas, sensors, thermal control systems, and future lunar infrastructure.

Metzger also explains why Starship, Artemis, lunar bases, landing pads, and Moon governance all depend on answering one unresolved question: how close can spacecraft safely land to existing equipment on the lunar surface?
Please enjoy the show.

--

Thinking on Paper is a technology podcast about AI, Space, quantum computing, science, and the systems shaping the future. 

🏠 Buy us a beer on Substack: https://thinkingonpaperpodcast.substack.com/
🎧 Take us with you on Spotify: https://open.spotify.com/show/00volKqMsQntToeho35W47
🎧 Remember steve jobs on APPLE: https://podcasts.apple.com/us/podcast/thinking-on-paper/id1713227258
📺 Get the clips and outtakes on Instagram https://www.instagram.com/toptechpodcast/

Matthew Weinzierl and Brendan Rosseau, authors of Space to Grow, explain the commercial space economy and the role of NASA, Artemis, commercial space stations, space-based data centers, Starlink, GPS, China’s space program, national security, and space governance.

The conversation covers how governments, private companies, and investors build, fund, regulate, and compete in space, from microgravity research and launch markets to lunar exploration, space resources, and the economics of commercial space.We also try and re-write the Space Treaty and look at the politics of the space race.

Please enjoy the show.

--
Thinking on Paper is a technology podcast about AI, Space, quantum computing, science, and the systems shaping the future. Connect with us.

🏠 Buy us a beer on Substack
🎧 Watch us compete with Lex Fridman on YouTube
🎧 Remember Steve Jobs and listen on APPLE
📺 Watch the clips and shorts on Instagram
Watch a random video from Rick Beato. Because we love him.

--

Chapters

(00:00) Government and Markets in Space
(03:35) Microgravity
(07:43) Economic Incentives
(12:14) Political Cycles in Space Policy
(17:09) International Collaboration
(18:45) National Security in Space
(21:36) Space Exploration
(24:27) The Importance Of GPS
(28:49) Space Investment
(30:37) Space-Based Data Centers
(33:40) Space Resources
(38:26) Governance in Space
(40:55) A New Space Treaty

Scott Crowder, Vice President of IBM Quantum Adoption, explains IBM Quantum’s approach to quantum-centric supercomputing, where QPUs, GPUs, CPUs, and HPC systems work together to solve problems that classical computers cannot handle alone.

The conversation covers IBM’s 2029 fault-tolerant quantum roadmap, Starling, Qiskit, quantum algorithms, quantum chemistry, Cleveland Clinic’s protein simulation, RIKEN, superconducting qubits, data centers, Nvidia GPUs, and why quantum computing depends on accessibility, open-source software, and real-world adoption.
Please enjoy the show.

-

Thinking on Paper is a technology podcast about AI, computing, science, and the systems shaping the future.

🏠 HQ: www.thinkingonpaper.xyz
📺 INSTAGRAM: https://www.instagram.com/thinkingonpaperpodcast/
🎧 Spotify: https://open.spotify.com/show/00volKqMsQntToeho35W47
🎧 APPLE: https://podcasts.apple.com/us/podcast/thinking-on-paper-technology-moves-fast-think-slower/id1713227258
--
Mark x: https://x.com/markfielding99
Jeremy: https://www.linkedin.com/in/jeremygilbertson/

–
Chapters
(00:00) Trailer
(01:20) Quantum computing
(02:40) IBM Reference Architecture
(05:05) Superconducting
(06:47) Algorithmic Discovery
(12:34) Cleveland Clinic
(13:44) IBM's quantum-centric supercomputing architecture
(16:07) Quantum computers today
(17:58) Quantum and classical converge
(22:28) Richard Feynman
(25:25) Data centers
(32:01) Quantum computers in space
(42:19) Qiskit, NVIDIA, and open source