What is the range of optical density that can be used to reliably convert absorbance to cell concentration
Answer :)
The most used optical density to count the cell concentration is 600 nm. This is the wavelength of orange color and most of the bacteria use this wavelength to grow. However, in calculating concentration, the solution of a bacteria culture deflects the light by which the spectrophotometer gives a reading, according to that we calculate the concentration.
What is the range of optical density that can be used to reliably convert absorbance to...
a solution X of concentration 0.010mol dm gives an absorbance of 0.5. What concentration is a solution of x which gives an absorbance reading of 0.25? Assume that the same optical cell is used for both readings
if my optical density was 0.032 what would be the bacterial aboundance based on the plot Table 2 (1): Bacterial abundance and absorbance of suspensions of E.coli - class data. (Average the class data and put the numbers in here). Test tube Bacterial abundance (CFU/mL) Absorbance (660nm) 0.9441 6.7.27 2. 27x10 1398109 9.27x108 6.537 0.371 0.273 01186 7.loxlu 8 4.80x108 2.76x108 Figure 2 [2]: Standard curve with the class data. Plot Absorbance versus Bacterial Abundance (CFU/ml using table 2. Graphs...
Can we reliably differentiate values (such as those used to assess person–organization fit) from political ideology reliably? Why or why not?
Is the standard curve reliable? What range is most reliable? Absorbance at 410 0.2 8 100 120 p-nitrophenol conc in sample (nmol/mg gart A Concentration "
OBSERVATIONS AND RESULTS 1. Record your results of absorbance values at 600 nm and subsequently plot the cell number versus time in the graph log paper provided on the page 77. Time O min 20 min 40 min 60 min 80 min 100 min 120 min Optical Density 0.008 0.023 0.042 0.073 0.115 0.157 0.206 2. What is the generation time in minutes of E. coli growing under these conditions? Note: generation time must be calculated using Log growth conditions....
A 1.53M solution of "A" has an absorbance of 0.45. What is the absorbance of solution "B" which has a concentration of 0.88M? The path length of the cell is 3.0cm. ( Write answer to three decimal places, if answer is 1.7654 then answer should be entered as 1.765)
6) According to the Beer-Lambert Law, what would happen to the absorbance of a solution if the concentration of analyte (substance being studied) is tripled? 7) At a wavelength of 447 nm, the absorbance of a solution that is 5X10M in the FeSCN complex is found to be 0.981. Assuming this is accurate, calculate the molar absorption coefficient (absorptivity) for the complex if the optical path length is 1.0 cm.
A) If your spectrophotometer can measure a maximum absorbance of 1.5, what is the maximum concentration of Compound N (ε=6220 M-1cm-1) that you can measure without diluting? B) If you add 3mL of water to 1mL of Compound, mix and get an absorbance of 0.2, what is the concentration of the original solution?
Sample Spectra overla بیا ن م Absorbance (AU) ن ه ن و ن 200 500 Wavelength (nm Exp 6 Question 7 Read over your lab book "prelab" for this experiment paying particular attention to where it discusses UV absorption. There is also attached an additional chapter on using UV absorbance as an analytical tool. Look at the attached dibenzalacetone UV spectrum. Determine the absorbance max (A) from y-axis vs wavelength (x-axis). The concentration used was 25mg dibenzalacetone/SOmletoh of which Sml...
Internal rate of return (IRR) can reliably be used to choose between mutually exclusive projects. O True False