Interestingly, better computer hardware is often actually less physical matter. What’s valuable about computers isn’t the amount of material, it’s the arrangement of matter. That applies to both hardware and software. A phone and that same phone smashed have the same number of atoms. That phone and an equivalent from 10 years earlier are pretty close in number of atoms. My monitors and TVs today are a tenth as many atoms as the ones I had years ago.
Buying a phone every year is still about five times the matter of buying a phone every five years. Also: it is quite cynical to count atoms while children work in cobalt mines. The question of resources is more complex.
The matter from previous phones can just be recycled. We don’t really do it now because we’re nowhere near the growth limit OP was hypothesizing, but if it really came to it we’d mine our landfills instead of mountains.
Talking about children is changing the subject, important as that may be. We’re talking about finite materials.
Interestingly, better computer hardware is often actually less physical matter. What’s valuable about computers isn’t the amount of material, it’s the arrangement of matter. That applies to both hardware and software. A phone and that same phone smashed have the same number of atoms. That phone and an equivalent from 10 years earlier are pretty close in number of atoms. My monitors and TVs today are a tenth as many atoms as the ones I had years ago.
Buying a phone every year is still about five times the matter of buying a phone every five years. Also: it is quite cynical to count atoms while children work in cobalt mines. The question of resources is more complex.
The matter from previous phones can just be recycled. We don’t really do it now because we’re nowhere near the growth limit OP was hypothesizing, but if it really came to it we’d mine our landfills instead of mountains.
Talking about children is changing the subject, important as that may be. We’re talking about finite materials.