The Naked Scientists
  • Login
  • Register
  • Podcasts
      • The Naked Scientists
      • eLife
      • Naked Genetics
      • Naked Astronomy
      • In short
      • Naked Neuroscience
      • Ask! The Naked Scientists
      • Question of the Week
      • Archive
      • Video
      • SUBSCRIBE to our Podcasts
  • Articles
      • Science News
      • Features
      • Interviews
      • Answers to Science Questions
  • Get Naked
      • Donate
      • Do an Experiment
      • Science Forum
      • Ask a Question
  • About
      • Meet the team
      • Our Sponsors
      • Site Map
      • Contact us

User menu

  • Login
  • Register
  • Home
  • Help
  • Search
  • Tags
  • Member Map
  • Recent Topics
  • Login
  • Register
  2. Naked Science Forum
  3. Non Life Sciences
  4. Chemistry
  5. Is the electron eV levels known for electrons in glass material
« previous next »
  • Print
Pages: [1]   Go Down

Is the electron eV levels known for electrons in glass material

  • 1 Replies
  • 2806 Views
  • 0 Tags
    •

0 Members and 1 Guest are viewing this topic.

Offline Timemachine1 (OP)

  • First timers
  • *
  • 4
  • Activity:
    0%
    • View Profile
Is the electron eV levels known for electrons in glass material
« on: 14/04/2016 23:31:48 »
Is the electron eV levels known for electrons in glass material, or what is the eV energy levels in glass.?
So in glass, transparent liquids, and plastics is the eV for the electron known to science.
The eV levels for electrons in gases are known like in hydrogen, and helium, but are they known for glass, and transparent liquids, and plastics.
Or is it just too discernable to get.
I am grateful for your help anything helps even a few words. [:D]
« Last Edit: 21/05/2016 00:12:54 by Timemachine1 »
Logged
 

Offline Atomic-S

  • Hero Member
  • *****
  • 981
  • Activity:
    0%
  • Thanked: 19 times
    • View Profile
Re: Can any INVISIBLE EM waves get electrons in solid matter, to the same energy lev
« Reply #1 on: 15/04/2016 06:28:49 »
Speaking generally, something like what you describe is probably possible. However, the availability of energy states for electrons is not dependent only upon what radiation may be present, but also upon the crystallography of the material. Black carbon, which is graphite, is of a different configuration than diamond. For this reason, the two materials do not have identical energy levels available. It would be highly doubtful that one could convert graphite into diamond by simply irradiating it.
Logged
 
 
The following users thanked this post: Timemachine1

  • Print
Pages: [1]   Go Up
« previous next »
Tags:
 

Similar topics (5)

What are "electron shells"?

Started by natalieeeBoard Chemistry

 Replies: 2
Views: 4700 		Last post 16/09/2008 21:52:45
by Bored chemist
Can two protons be made "invisible" to each other by putting electrons between?

Started by McKayBoard Physics, Astronomy & Cosmology

 Replies: 5
Views: 4715 		Last post 22/09/2014 10:42:44
by evan_au
What are "Energy Levels" in atoms?

Started by Eman7Board Chemistry

 Replies: 5
Views: 6496 		Last post 21/05/2016 12:58:18
by evan_au
Does an electron's charge need to be the exact opposite of a proton's charge?

Started by Lewis ThomsonBoard Chemistry

 Replies: 1
Views: 623 		Last post 09/02/2022 15:12:21
by alancalverd
How can an electron travel "all possible" paths from emitter to receiver?

Started by stevewillieBoard Physics, Astronomy & Cosmology

 Replies: 3
Views: 8004 		Last post 25/08/2008 15:03:30
by lyner
There was an error while thanking
Thanking...
  • SMF 2.0.15 | SMF © 2017, Simple Machines
    Privacy Policy
    SMFAds for Free Forums
  • Naked Science Forum ©

Page created in 0.1 seconds with 37 queries.

  • Podcasts
  • Articles
  • Get Naked
  • About
  • Contact us
  • Advertise
  • Privacy Policy
  • Subscribe to newsletter
  • We love feedback

Follow us

cambridge_logo_footer.png

©The Naked Scientists® 2000–2017 | The Naked Scientists® and Naked Science® are registered trademarks created by Dr Chris Smith. Information presented on this website is the opinion of the individual contributors and does not reflect the general views of the administrators, editors, moderators, sponsors, Cambridge University or the public at large.