What does sunlight do that incandescent light can't do?

  • Context: Medical 
  • Thread starter Thread starter Simfish
  • Start date Start date
  • Tags Tags
    Light Sunlight
Click For Summary
SUMMARY

Sunlight and incandescent light both emit light at roughly blackbody distributions, producing white light; however, sunlight has a significantly wider spectrum due to its higher temperature, extending into the ultraviolet (UV) range. This UV emission is crucial for vitamin D synthesis in the skin, which does not occur with incandescent light. Incandescent bulbs are biased towards the lower energy end of the spectrum, emitting more red light and very little blue or violet light. The discussion highlights the importance of UV exposure for health, particularly in relation to skin conditions and vitamin D production.

PREREQUISITES
  • Understanding of blackbody radiation concepts
  • Knowledge of light spectrum and its components (UV, visible light)
  • Familiarity with vitamin D synthesis and its health implications
  • Basic principles of light therapy and its applications
NEXT STEPS
  • Research the effects of UV light on skin health and vitamin D production
  • Explore the differences between incandescent and fluorescent lighting technologies
  • Learn about light therapy techniques and their benefits
  • Investigate the health risks associated with inadequate UV exposure
USEFUL FOR

Individuals interested in health and wellness, lighting designers, and anyone seeking to understand the biological effects of different light sources on human health.

Simfish
Gold Member
Messages
811
Reaction score
2
What does "sunlight" do that incandescent light can't do?

Both of them emit light at roughly blackbody distributions, and their light distributions both seem centered in a way such that they both produce white light.

Light therapy produces a lot of excess light at the higher frequencies. But then it doesn't even remotely resemble sunlight at all.
 
Biology news on Phys.org


I'm new here, forgive me if I'm not supposed to give obvious answers.

Both are essentially black bodys, but the Sun, due to its much higher temperature, emits a much wider spectrum, toward the UV bands. Thus, sunburn, skin cancer, vitamen D.

Ol' Bab
 


Simfish said:
Both of them emit light at roughly blackbody distributions, and their light distributions both seem centered in a way such that they both produce white light.
What? They're not even close.
Incandescent is way baised toward the low energy end of the spectrum - lots of of red, very little blue/violet.

lightsourcesfigure3.jpg
 


Quite so!
Meant it in the sense "given UV, these things follow"

Or might follow. Hmm. More likely? Sometimes? The confusion, the confusion...

Ol' Bab, who is too old for this.
 


Go shopping for compact fluorescents; they come in different temperatures.
 

Similar threads

Optical qualities of prism sheet and glass substrate (LCD screen)
  • · Replies 69 ·
3
Replies
69
Views
7K
How Does Flickering Light Influence Our Brain's Perception of Image Brightness?
  • · Replies 8 ·
Replies
8
Views
5K
High School What happens to excess energy when an electron gets excited by light?
  • · Replies 7 ·
Replies
7
Views
2K
What is Dark Adaptation of Light and How Does it Affect Vision?
  • · Replies 3 ·
Replies
3
Views
8K
Comparing Light Spectra from Incandescent Bulbs, Fluorescent Tubes & Sunlight
  • · Replies 1 ·
Replies
1
Views
3K
Undergrad How do you get to the conclusion that there is accelerating expansion?
  • · Replies 23 ·
Replies
23
Views
3K
Undergrad Confusion about absorption spectra - cool gases absorb?
  • · Replies 17 ·
Replies
17
Views
8K
Graduate What makes a light source "brighter"?
  • · Replies 7 ·
Replies
7
Views
5K
Why does diffracted white light have a white central fringe?
  • · Replies 6 ·
Replies
6
Views
7K
Undergrad How to Measure Speed of Light & Is It Constant?
  • · Replies 13 ·
Replies
13
Views
3K