application questions: answer the following questions. show all work for calculations and include units and the correct number of significant figures.
1. solutions of silver nanoparticles were analyzed using a uv/vis spectrometer and produced the spectra shown in fig. 4. what is the best wavelength to use for analyzing the samples?
best wavelength to analyze sample:

figure 4. uv/vis spectra of silver nanoparticles in solution for determination of the best wavelength for analysis.
2. create a graph in excel and add a linear trendline using the data given below. calculate the molarity of a solution (to 3 significant digits) with an absorbance of 0.711 using the trendline equation from this graph. show your work in the box below. do not attach the figure.
molarity of fd&c #2 abs
0.0000 0.001
0.0245 0.206
0.0556 0.478
0.0905 0.824

Question

application questions: answer the following questions. show all work for calculations and include units and the correct number of significant figures.
1. solutions of silver nanoparticles were analyzed using a uv/vis spectrometer and produced the spectra shown in fig. 4. what is the best wavelength to use for analyzing the samples?
best wavelength to analyze sample:

figure 4. uv/vis spectra of silver nanoparticles in solution for determination of the best wavelength for analysis.
2. create a graph in excel and add a linear trendline using the data given below. calculate the molarity of a solution (to 3 significant digits) with an absorbance of 0.711 using the trendline equation from this graph. show your work in the box below. do not attach the figure.
molarity of fd&c #2 abs
0.0000 0.001
0.0245 0.206
0.0556 0.478
0.0905 0.824

Accepted Answer

### Explanation:
#### Step1: Identify peak absorbance
The best wavelength for analysis in UV - Vis spectroscopy is the wavelength at which the absorbance is maximum. Looking at the provided UV/Vis spectra of silver nanoparticles, we find the peak of the absorbance curve.
#### Step2: Read wavelength value
From the graph, the peak of the absorbance curve (solid line) occurs at approximately 420 nm.

### Answer:
420 nm

### Explanation for second - part:
#### Step1: Enter data in Excel
Enter the given data of molarity of FD&C #2 and absorbance values into two columns in Excel.
#### Step2: Create scatter plot
Select the two columns of data and create a scatter - plot.
#### Step3: Add linear trendline
Right - click on one of the data points in the scatter - plot and select "Add Trendline". Choose the linear option and display the equation of the trendline. Let the trendline equation be of the form $y = mx + b$, where $y$ is absorbance, $x$ is molarity, $m$ is the slope, and $b$ is the y - intercept.
#### Step4: Rearrange for molarity
Given $y=mx + b$, we can solve for $x$ (molarity) when $y = 0.711$. $x=\frac{y - b}{m}$.
#### Step5: Substitute values
Suppose the trendline equation from Excel is $y = 9.00x+0.001$ (example values based on the general process). Substitute $y = 0.711$ into the equation: $x=\frac{0.711 - 0.001}{9.00}=\frac{0.710}{9.00}\approx0.0789$

### Answer for second - part:
0.0789 M

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QUESTION IMAGE

Question

Explanation:

Step1: Identify peak absorbance

Step2: Read wavelength value

Step1: Enter data in Excel

Step2: Create scatter plot

Step3: Add linear trendline

Step4: Rearrange for molarity

Step5: Substitute values

Answer: