Instrumental methods of analysis
Instrumental methods of analysis rely on machines. There are several different types of instrumental analysis. Some are suitable for detecting and identifying elementA substance made of one type of atom only., while others are better suited to compoundA substance formed by the chemical union of two or more elements..
Compared to simple laboratory tests, instrumental methods of analysis may give improved:
- speed (they are quick)
- accuracy (they reliably identify elements and compounds)
- sensitivity (they can detect a substance in a very small amount of sample)
An example - the flame photometer
The flame photometer is a scientific instrument based on flame testing. Data from a flame photometer can be used to:
- identify metal ionElectrically charged particle, formed when an atom or molecule gains or loses electrons. in a sample
- determine the concentrationThe concentration of a solution tells us how much of a substance is dissolved in water. The higher the concentration, the more particles of the substance are present. of metal ions in dilute solutionMixture formed by a solute and a solvent.
Identifying metal ions
In the flame photometer, the coloured light from a vaporised sample can be split to produce an emission spectrumLight given off by a substance, split into its component colours or wavelengths.. The different lines in an emission spectrum look like a coloured barcode. Each metal ion produces a unique emission spectrum.
The metal present in a sample is identified by comparing its spectrumA series of similar waves arranged in order of wavelength or frequency. with reference spectra. These are emission spectra from known metal ions. If two spectra match, they must be from the same metal ion.
Determining concentrations
A reading is taken from the flame photometer for different concentrations of a metal ion in solution. These readings are used to plot a calibration curveGraph with the readings from a machine plotted against known amounts of a substance..
Example
A solution containing sodium ions gives a reading of 4 units on the flame photometer. Use the calibration curve above to determine the concentration of sodium ions in this solution.
The concentration is 0.02 g/dm3.
Question
A solution containing sodium ions gives a reading of 9 units on the flame photometer. Use the calibration curve above to determine the concentration of sodium ions in this solution.
The concentration is 0.045 g/dm3.