It is also possible (and not very difficult) to design incandescent bulbs that will outlive their owners. In fact, the first mass produced light bulbs generally lasted 2,500+ hours. In the 1920s, the major bulb manufacturers formed the 'Pheobus Cartel' in Geneva and secretly colluded to limit the lifespan of bulbs to 1,000 hours to boost sales [1]. Another example of planned obsolescence harming consumers and the environment.
[1]https://interestingengineering.com/science/everlasting-light...
Veritasium - This is why we can't have nice things - https://youtu.be/j5v8D-alAKE
The Great Lightbulb Conspiracy https://spectrum.ieee.org/the-great-lightbulb-conspiracy
> On 23 December 1924, a group of leading international businessmen gathered in Geneva for a meeting that would alter the world for decades to come. Present were top representatives from all the major lightbulb manufacturers, including Germany’s Osram, the Netherlands’ Philips, France’s Compagnie des Lampes, and the United States’ General Electric. As revelers hung Christmas lights elsewhere in the city, the group founded the Phoebus cartel, a supervisory body that would carve up the worldwide incandescent lightbulb market, with each national and regional zone assigned its own manufacturers and production quotas. It was the first cartel in history to enjoy a truly global reach.
You can dim them, and provide a slow start to prevent the inrush current (which is like 10times more than nominal with tungsten resistance increasing due so high 2500K temps).
[1] https://news.mit.edu/2016/nanophotonic-incandescent-light-bu...
I'd pattern the inner surface of the glass envelope with a cube texture - think of taking a cube and pressing a corner normally into a clay surface, then removing the cube. This pattern is a so-called corner reflector, and returns incident light to its source. Figure the cube indentations at about 0.5mm deep, close packed. I'd deposit a dielectric film reflector stack tuned to reflect most infrared radiation onto this surface.
This combination would transmit visible light, but would reflect IR directly back to the filament, reducing the amount of electrical power needed to maintain filament temperature. Glass textural molding and dielectric film deposition are mature technologies. I think this could readily triple incandescent lamp power efficiency, maybe even better.
When we're talking market price, we have to acknowledge that it is a meeting of the price needed to bring a product to market and the price the consumer is willing to pay. We can't assume that the price of the longer lasting bulb would have been attractive to consumers, when compared to the price of the shorter-lived bulb, even if they had all the information available.
It's perfectly valid for a person to decide they'll spend more over the long run, rather than ponying up a larger sum now. And it's perfectly valid for producers to take the chance of deciding this for the consumer. As Henry Ford noted, "If I had asked people what they wanted, they would have said faster horses."
Was anybody stopping anyone from offering the consumer a higher-priced and longer-lasting bulb?
