Physics307L:Winter Break Lab Fest: Difference between revisions

From OpenWetWare
Jump to navigationJump to search
No edit summary
 
(4 intermediate revisions by the same user not shown)
Line 3: Line 3:
<div style="padding: 10px; width: 720px; border: 5px solid #008;">
<div style="padding: 10px; width: 720px; border: 5px solid #008;">


On Saturday, December 27 (noon? 1 pm?), we're going to have people from the community (mostly Steve's neighbors) visit Junior Lab so they can see first hand the fun the UNM physics majors had this semester.  If you would like to participate in this event, please let [[User:Steven J. Koch|Steve]] know!  Koch Lab members & former 307L members are welcome to come and help teahc!
On Saturday, December 27, 12:30 pm, we're going to have people from the community (mostly Steve's neighbors) visit Junior Lab so they can see first hand the fun the UNM physics majors had this semester.  If you would like to participate in this event, please let [[User:Steven J. Koch|Steve]] know!  Koch Lab members & former 307L members are welcome to come and help teach!


==Goals==
==Goals==
Line 16: Line 16:
This is likely where my pre-planning runs out.  The [[Physics307L:Labs|Labs link above]] will show most of the labs we have.  Some are likely more fun than others for non-physics majors.  Here're some that I'm thinking would be cool:
This is likely where my pre-planning runs out.  The [[Physics307L:Labs|Labs link above]] will show most of the labs we have.  Some are likely more fun than others for non-physics majors.  Here're some that I'm thinking would be cool:


* e/m ratio: charge to mass ratio of single electrons.  You get to see an electron beam with your eyes.  Pretty cool.
* [[/Balmer|Balmer series]]: physics of the visible spectrum of hydrogen atoms.  This is probably pretty fun.
* electron diffraction: electrons are particles and waves.  Similarly cool to e/m.
* [[/chargemass|e/m ratio]]: charge to mass ratio of single electrons.  You get to see an electron beam with your eyes.  Pretty cool.
* Millikan oil drop: detecting charge of a single electron.  This is really challenging, but pretty cool and a famous experiment.
* [[/ediffraction|electron diffraction]]: electrons are particles and waves.  Similarly cool to e/m.
* Planck's constant (Photoelectric effect):light is composed of particles of energy called photons.  This one is pretty easy to take data, but requires some Excel work to get any kind of answer.  It is what Einstein primarily won his Nobel Prize for, though!
* [[/millikan/Millikan oil drop]]: detecting charge of a single electron.  This is really challenging, but pretty cool and a famous experiment.
* Speed of Light: measuring the universal speed limit.  This is so fundamental, people may want to try it.  But there's nothing very cool to see and it requires a lot of analysis.  Not sure if it would be fun for non-physicists.
* [[/photoelectric|Planck's constant]] (Photoelectric effect):light is composed of particles of energy called photons.  This one is pretty easy to take data, but requires some Excel work to get any kind of answer.  It is what Einstein primarily won his Nobel Prize for, though!
* Balmer series: physics of the visible spectrum of hydrogen atoms.  This is probably pretty fun.
* [[/speedoflight|Speed of Light]]: measuring the universal speed limit.  This is so fundamental, people may want to try it.  But there's nothing very cool to see and it requires a lot of analysis.  Not sure if it would be fun for non-physicists.


==Who is coming?==
==Who is coming?==
Line 29: Line 29:
* Babette
* Babette
* Jason
* Jason
* Barbara
* Barbara + parents




Latest revision as of 11:59, 27 December 2008

Physics 307L, Fall 2010

Home        Schedule        People        Interactions        Labs        Assignments        Grading        Safety        Help       


Winter Break Lab Fest       

On Saturday, December 27, 12:30 pm, we're going to have people from the community (mostly Steve's neighbors) visit Junior Lab so they can see first hand the fun the UNM physics majors had this semester. If you would like to participate in this event, please let Steve know! Koch Lab members & former 307L members are welcome to come and help teach!

Goals

  • Have fun
  • Learn some physics concepts
  • Have fun

How can I sign up for OpenWetWare?

Go to This page.

What labs can we do?

This is likely where my pre-planning runs out. The Labs link above will show most of the labs we have. Some are likely more fun than others for non-physics majors. Here're some that I'm thinking would be cool:

  • Balmer series: physics of the visible spectrum of hydrogen atoms. This is probably pretty fun.
  • e/m ratio: charge to mass ratio of single electrons. You get to see an electron beam with your eyes. Pretty cool.
  • electron diffraction: electrons are particles and waves. Similarly cool to e/m.
  • /millikan/Millikan oil drop: detecting charge of a single electron. This is really challenging, but pretty cool and a famous experiment.
  • Planck's constant (Photoelectric effect):light is composed of particles of energy called photons. This one is pretty easy to take data, but requires some Excel work to get any kind of answer. It is what Einstein primarily won his Nobel Prize for, though!
  • Speed of Light: measuring the universal speed limit. This is so fundamental, people may want to try it. But there's nothing very cool to see and it requires a lot of analysis. Not sure if it would be fun for non-physicists.

Who is coming?

Steve thinks you should request an OWW account and put your name down here if you're coming. Here's who I think is coming as of Christmas Eve:

  • Steve
  • KT
  • Babette
  • Jason
  • Barbara + parents


Recent updates to the course

List of abbreviations:
N
This edit created a new page (also see list of new pages)
m
This is a minor edit
b
This edit was performed by a bot
(±123)
The page size changed by this number of bytes

26 April 2024

 N    08:47  The Paper that Launched Microfluidics - Xi Ning‎‎ 2 changes history +16,815 [Xning098‎ (2×)]
     
08:47 (cur | prev) −1 Xning098 talk contribs (→‎Introduction)
N    
08:43 (cur | prev) +16,816 Xning098 talk contribs (Created page with "{{Template:CHEM-ENG590E}} ==Introduction== Microfluidics is the science and technology of systems that process or manipulate small (10 <sup> -18 </sup> to 10 <sup>−18 </sup> litres) amounts of fluids, using channels with dimensions of tens to hundreds of micrometres, as stated by George Whitesides. <sup> https://doi.org/10.1038/nature05058 1 </sup>. Microfluidic devices are microchemical systems such as labs on the chip, organs on the chip and plants on the chip....")
     08:43  CHEM-ENG590E:Wiki Textbook‎‎ 3 changes history 0 [Xning098‎ (3×)]
     
08:43 (cur | prev) 0 Xning098 talk contribs Tag: Manual revert
     
08:42 (cur | prev) 0 Xning098 talk contribs Tag: Manual revert
     
08:41 (cur | prev) 0 Xning098 talk contribs
     08:40  The paper that launched microfluidics - Xi Ning‎‎ 15 changes history +250 [Xning098‎ (15×)]
     
08:40 (cur | prev) +18 Xning098 talk contribs (→‎Significance)
     
08:36 (cur | prev) 0 Xning098 talk contribs (→‎Significance)
     
08:34 (cur | prev) +37 Xning098 talk contribs (→‎Significance)
     
08:31 (cur | prev) +3 Xning098 talk contribs (→‎Significance)
     
08:30 (cur | prev) +8 Xning098 talk contribs (→‎Significance)
     
08:28 (cur | prev) −31 Xning098 talk contribs (→‎Significance)
     
08:22 (cur | prev) −1 Xning098 talk contribs (→‎Electrokinetic effect)
     
08:21 (cur | prev) −2 Xning098 talk contribs (→‎Separation and quantification)
     
08:19 (cur | prev) 0 Xning098 talk contribs (→‎Sample dilution)
     
08:19 (cur | prev) 0 Xning098 talk contribs (→‎Sample dilution)
     
08:18 (cur | prev) 0 Xning098 talk contribs (→‎Separation and quantification)
     
08:17 (cur | prev) −1 Xning098 talk contribs (→‎Sample dilution)
     
08:17 (cur | prev) +1 Xning098 talk contribs
     
08:14 (cur | prev) 0 Xning098 talk contribs (→‎Microfluidic set-ups and its efficacy)
     
08:03 (cur | prev) +218 Xning098 talk contribs
     08:20  (Upload log) [Xning098‎ (6×)]
     
08:20 Xning098 talk contribs uploaded File:XiNingFigure2.jpeg
     
08:14 Xning098 talk contribs uploaded File:Figure4Drawn.XiNing.jpeg
     
08:00 Xning098 talk contribs uploaded File:DrawnFigure4XiNing.jpeg
     
07:38 Xning098 talk contribs uploaded File:XiNingDrawnSetup2.png
     
07:35 Xning098 talk contribs uploaded a new version of File:Figure 2 Set-up1.png
     
07:24 Xning098 talk contribs uploaded File:DrawnElectoosmoticflow.jpeg
     05:25  Ernesto-Perez-Rueda:Contact diffhist −94 Ernesto Perez-Rueda talk contribs

25 April 2024

      23:55  Flow and Pattern Asymmetries‎‎ 23 changes history +1,186 [Courtneychau‎ (23×)]
     
23:55 (cur | prev) −14 Courtneychau talk contribs (→‎Mixing on the Microfluidic Scale)
     
23:55 (cur | prev) −43 Courtneychau talk contribs (→‎Reynolds Number (Re))
     
23:55 (cur | prev) −46 Courtneychau talk contribs (→‎Péclet Number (Pe))
     
23:55 (cur | prev) −31 Courtneychau talk contribs (→‎Stokes Flow)
     
23:54 (cur | prev) −151 Courtneychau talk contribs (→‎Stokes Flow)
     
23:50 (cur | prev) +184 Courtneychau talk contribs (→‎References)
     
23:46 (cur | prev) 0 Courtneychau talk contribs (→‎Active Mixing Methods)
     
23:46 (cur | prev) +1 Courtneychau talk contribs (→‎Passive Mixing Methods)
     
23:45 (cur | prev) 0 Courtneychau talk contribs (→‎Chaotic Advection)
     
23:44 (cur | prev) 0 Courtneychau talk contribs (→‎Mixing on the Microfluidic Scale)
     
23:43 (cur | prev) +28 Courtneychau talk contribs (→‎Stokes Flow)
     
23:39 (cur | prev) +1 Courtneychau talk contribs (→‎Stokes Flow) Tag: Manual revert
     
23:38 (cur | prev) −1 Courtneychau talk contribs (→‎Stokes Flow)
     
23:37 (cur | prev) +11 Courtneychau talk contribs
     
23:36 (cur | prev) +15 Courtneychau talk contribs
     
23:33 (cur | prev) 0 Courtneychau talk contribs (→‎References)
     
23:30 (cur | prev) +3 Courtneychau talk contribs (→‎Passive Mixing Methods)
     
23:28 (cur | prev) −426 Courtneychau talk contribs
     
23:16 (cur | prev) +1,656 Courtneychau talk contribs (→‎References)
     
23:14 (cur | prev) 0 Courtneychau talk contribs (→‎Applications of Asymmetric Flow)
     
23:13 (cur | prev) 0 Courtneychau talk contribs (→‎Active Mixing Methods)
     
23:12 (cur | prev) −1 Courtneychau talk contribs (→‎Passive Mixing Methods)
     
23:11 (cur | prev) 0 Courtneychau talk contribs (→‎Microfluidic Mixers)


Retrieved from "https://openwetware.org/mediawiki/index.php?title=Physics307L:Winter_Break_Lab_Fest&oldid=273739"