Tristan Scott

When we're inside behind energy efficient glass, a lot of that gets filtered out. So what I like to do with incandescence, and Steve is pulling up some nice spectrums here.

Yeah, this is what you were showing me at the house a minute ago.

Yeah, this is what you were showing me at the house a minute ago.

Yeah, this is what you were showing me at the house a minute ago.

Yeah, we measured it with the spectrometer. It's rich in long wavelength, low energy light that is very, very beneficial for our biology. It does things like stimulates melatonin production in the mitochondria to actually balance the oxidative response from higher energy wavelengths, such as blue, violet, and UV. And we're deficient in infrared light. So the incandescents put that back.

Yeah, we measured it with the spectrometer. It's rich in long wavelength, low energy light that is very, very beneficial for our biology. It does things like stimulates melatonin production in the mitochondria to actually balance the oxidative response from higher energy wavelengths, such as blue, violet, and UV. And we're deficient in infrared light. So the incandescents put that back.

Yeah, we measured it with the spectrometer. It's rich in long wavelength, low energy light that is very, very beneficial for our biology. It does things like stimulates melatonin production in the mitochondria to actually balance the oxidative response from higher energy wavelengths, such as blue, violet, and UV. And we're deficient in infrared light. So the incandescents put that back.

So I'm a much bigger fan of incandescent infrared maxing as opposed to blocking blue light during the day.

So I'm a much bigger fan of incandescent infrared maxing as opposed to blocking blue light during the day.

So I'm a much bigger fan of incandescent infrared maxing as opposed to blocking blue light during the day.

So you were just at my house and you gave me a new incandescent bulb for one of my lamps. And when you first scanned the lamp with the LED bulb, it looked exactly like the one on the left with that huge blue spike. Then when he did it with the incandescent bulb, it looked exactly like the one on the right. And we went outside in the sunlight.

So you were just at my house and you gave me a new incandescent bulb for one of my lamps. And when you first scanned the lamp with the LED bulb, it looked exactly like the one on the left with that huge blue spike. Then when he did it with the incandescent bulb, it looked exactly like the one on the right. And we went outside in the sunlight.

So you were just at my house and you gave me a new incandescent bulb for one of my lamps. And when you first scanned the lamp with the LED bulb, it looked exactly like the one on the left with that huge blue spike. Then when he did it with the incandescent bulb, it looked exactly like the one on the right. And we went outside in the sunlight.

It looked more like the incandescent chart on the right.

It looked more like the incandescent chart on the right.

It looked more like the incandescent chart on the right.

Well, it looked like the one on the left here that's showing the sunlight, which is full spectrum. So you get a lot of violet, you get ultraviolet, you get everything. You get everything from ultraviolet to infrared. And these spectrometer images don't even capture most of the infrared spectrum. The infrared spectrum goes from like 750 nanometers to tens of micrometers. Like it's... Very vast.

Well, it looked like the one on the left here that's showing the sunlight, which is full spectrum. So you get a lot of violet, you get ultraviolet, you get everything. You get everything from ultraviolet to infrared. And these spectrometer images don't even capture most of the infrared spectrum. The infrared spectrum goes from like 750 nanometers to tens of micrometers. Like it's... Very vast.

Well, it looked like the one on the left here that's showing the sunlight, which is full spectrum. So you get a lot of violet, you get ultraviolet, you get everything. You get everything from ultraviolet to infrared. And these spectrometer images don't even capture most of the infrared spectrum. The infrared spectrum goes from like 750 nanometers to tens of micrometers. Like it's... Very vast.

And the visible spectrum is very narrow. It's like 300 nanometers. So the majority of what you're taking in from sunlight is infrared. There you go.