The moving ions can be thought of as a current loop, and it will produce its own magnetic field. The direction of this field at the center of the particles' circular orbit is A. In the same direction as the spectrometer's magnetic field.

B. Opposite the direction of the spectrometer's magnetic field.

If you have a sample of unknown composition, a first step at analysis might be a determination of the masses of the atoms and molecules in the sample. A mass spectrometer to make such an analysis can take various forms, but for many years the best technique was to determine the masses of ionized atoms and molecules in a sample by observing their circular paths in a uniform magnetic field, as illustrated in Figure P24.67. A sample to be analyzed is vaporized, then singly ionized. The ions are accelerated through an electric field, and ions of a known speed selected. These ions travel into a region of uniform magnetic field, where they follow circular paths. An exit slit allows ions that have followed a particular path to be counted by a detector, producing a record of the masses of the particles in the sample.

Transcribed Image Text:

1. Atoms are ionized and accelerated. Ions of a particular velocity are selected to enter the spectrometer. 2. Ions of different masses follow paths of different radii. Edation Detector 3. Only ions of a particular mass reach the FIGURE P24.67 exit slit and continue to the detector.