Digitized images of molecules of 16 S rRNA from Escherichia coli, obtained by scanning transmission electron microscopy (STEM), provide quantitative structural information that is lacking in conventional electron micrographs. We have determined the morphology, total molecular mass, mass distribution within individual rRNA molecules and apparent radii of gyration. From the linear density (M/L) we have assessed the number of strands in the structural backbone of rRNA and studied the pattern of branching and folding related to the secondary and tertiary structure of rRNAs under various buffer conditions. Even in reconstitution buffer 16 S RNA did not show any resemblance to the native 30 S subunit.