Determine the linearity limit of the meter.

The following table shows readings from an instrument. Please calculate the:

1). Sensitivity of the measurement;

2). LOD (Limit of Detection);

3). LOQ (Limit of Quantitation).

2. The following table shows readings from a meter at different sample concentrations.
3. Determine the linearity limit of the meter.
4. Determine the dynamic range of the meter.
5. Determine the sensitivity of the meter.
6.  
   3. Calculate the frequency in Hertz of

   (a).  an X-ray beam with a wavelength of 3.03 Å.

   (b). an emission line for copper at 324.7 nm.

   (c). the line at 632.8 nm produced by a He-Ne laser.

   (d). the output of a CO₂ laser at 10.6 μm.

   (e). an infrared absorption peak at 3.85 μm.

   (f). a microwave beam at 1.86 cm.

    

   4. A typical simple infrared spectrophotometer covers a wavelength range from 3 to 15 μm. Express its range (a) in wavenumbers and (b) in hertz.

    

   5. Calculate the wavelength and the energy in joules associated with a signal at 220 MHz.

    

   6. Convert the following values of absorbance to percent transmittance:

   (a). 0.0380

   (b). 0.916

   (c). 0.325

   (d). 0.253

   (e). 0.185