![SOLVED: Using the formula: cfu/ml = (no. of colonies x dilution factor) / volume of culture plate. In plate 10^-4, there were 57 colonies counted. Experimental process: Pipet 0.25 mL of the SOLVED: Using the formula: cfu/ml = (no. of colonies x dilution factor) / volume of culture plate. In plate 10^-4, there were 57 colonies counted. Experimental process: Pipet 0.25 mL of the](https://cdn.numerade.com/ask_previews/4620c9dd-91ca-4487-b883-4af656ff818a_large.jpg)
SOLVED: Using the formula: cfu/ml = (no. of colonies x dilution factor) / volume of culture plate. In plate 10^-4, there were 57 colonies counted. Experimental process: Pipet 0.25 mL of the
![SOLVED: 7. Calculate the amount of CFU/ml in the original sample: your answer should be in scientific notation and include units. 10^-1 10^-2 10^-3 10^-5 10^-6 10^-8 Original: TNTC TNTC 5849 590 SOLVED: 7. Calculate the amount of CFU/ml in the original sample: your answer should be in scientific notation and include units. 10^-1 10^-2 10^-3 10^-5 10^-6 10^-8 Original: TNTC TNTC 5849 590](https://cdn.numerade.com/ask_images/35453f5f6d6e4a829d3bde8de2b8ba2c.jpg)
SOLVED: 7. Calculate the amount of CFU/ml in the original sample: your answer should be in scientific notation and include units. 10^-1 10^-2 10^-3 10^-5 10^-6 10^-8 Original: TNTC TNTC 5849 590
![How to quantify bacterial cultures - From CFU and OD to counting chamber - Eppendorf Handling Solutions How to quantify bacterial cultures - From CFU and OD to counting chamber - Eppendorf Handling Solutions](https://handling-solutions.eppendorf.com/fileadmin/Community/Sample_Handling/Mix_Shake/How_to_quantify_figure_2.jpg)