![SOLVED: Using the data below for the serially diluted samples, determine the concentration of your purified calf thymus DNA Concentration SOnglul 2Sng/ul 12.Sng/ul 6.25ng/ul Absorbance 0.978 0.521 0.253 0.125 Construct a standard SOLVED: Using the data below for the serially diluted samples, determine the concentration of your purified calf thymus DNA Concentration SOnglul 2Sng/ul 12.Sng/ul 6.25ng/ul Absorbance 0.978 0.521 0.253 0.125 Construct a standard](https://cdn.numerade.com/ask_images/3f650aeee6b7456da576a7b29d974f49.jpg)
SOLVED: Using the data below for the serially diluted samples, determine the concentration of your purified calf thymus DNA Concentration SOnglul 2Sng/ul 12.Sng/ul 6.25ng/ul Absorbance 0.978 0.521 0.253 0.125 Construct a standard
![Worked example: Calculating concentration using the Beer–Lambert law | AP Chemistry | Khan Academy - YouTube Worked example: Calculating concentration using the Beer–Lambert law | AP Chemistry | Khan Academy - YouTube](https://i.ytimg.com/vi/pbbHg_9zFbI/maxresdefault.jpg)
Worked example: Calculating concentration using the Beer–Lambert law | AP Chemistry | Khan Academy - YouTube
![SOLVED: Exercise # 1 Calculate the concentration of DNA ([DNA]) in the sample using the data shown below: The DNA sample was diluted 1/5. The Absorbance at 260 nm of the diluted SOLVED: Exercise # 1 Calculate the concentration of DNA ([DNA]) in the sample using the data shown below: The DNA sample was diluted 1/5. The Absorbance at 260 nm of the diluted](https://cdn.numerade.com/ask_images/f49ff646ab784c04bd116a6b2f785056.jpg)
SOLVED: Exercise # 1 Calculate the concentration of DNA ([DNA]) in the sample using the data shown below: The DNA sample was diluted 1/5. The Absorbance at 260 nm of the diluted
![SOLVED: The table below shows the relationship between the absorbance of a solution and its concentration given a pathlength of [ cm Concentration (MM 0.150 0.351 0.617 0955 1.421 Absorbance 0.072 0.168 SOLVED: The table below shows the relationship between the absorbance of a solution and its concentration given a pathlength of [ cm Concentration (MM 0.150 0.351 0.617 0955 1.421 Absorbance 0.072 0.168](https://cdn.numerade.com/ask_images/456f9ada3d944933ba15ef91e23815d5.jpg)