How can you quantitate your images is vitally important because cellular processes are governed by the laws of physics. To help people with biology we need a physically accurate picture of the cell. Fluorescence excitation causes changes in the eigenstate of the electronic energy levels of the excited molecules, which can result in radiation that changes the state of neighboring molecules. However, fluorescence excitation still remains a powerful tool for measuring the rates of cellular processes. Dr. Dray always concludes her videos with sunscreen and subscribe because all humans are in a race against time to slow down the dynamics of radiation causing protein and DNA mutation in their cells.
sir, how can I identify Crystal under polarization microscopy. we need to identity some pharmaceutical raw materials (like : azithromycin,maize starch etc.) by using polarization microscopy.
great overview of the various types of microscopy up to 2013, yes, very exciting technologies are developing.
availability, access and use of microscopy tools for matching problem and (re)solution
How can you quantitate your images is vitally important because cellular processes are governed by the laws of physics. To help people with biology we need a physically accurate picture of the cell. Fluorescence excitation causes changes in the eigenstate of the electronic energy levels of the excited molecules, which can result in radiation that changes the state of neighboring molecules. However, fluorescence excitation still remains a powerful tool for measuring the rates of cellular processes. Dr. Dray always concludes her videos with sunscreen and subscribe because all humans are in a race against time to slow down the dynamics of radiation causing protein and DNA mutation in their cells.
sir, how can I identify Crystal under polarization microscopy. we need to identity some pharmaceutical raw materials (like : azithromycin,maize starch etc.) by using polarization microscopy.
Fascinating talk, thank you
instaBlaster...
No consideration of electron microscopy.
6:16 Fluorescence.
22:00 Super-resolution.
Thank you really great!
good talk
And now replace all latinized or greekified words and use plain verbs - you will not like it..
too much talking
too much AAAAAAMM ..... if you cut it you would have a video of 3 min i hope he stopped doing it , thanks anyway for the explanation