Mayall began
college in the fall of 1924 at the
University of California, Berkeley, studying for a degree in
mining. He took up residence with his mother in an apartment on Durant Avenue, and worked at the UC Berkeley library to help support them both. Mayall generally did well at university, and was eventually elected to the
Sigma Xi and
Phi Beta Kappa honor societies. However, at mid-term examinations of his second year, he achieved poor grades in mineralogy and chemistry laboratory. At a meeting with the dean to discuss his grades the latter became aware that Mayall was
color blind, which prevented him from observing small color changes in
bead and
flame tests, and also kept him from seeing small color changes in
precipitations and
titrations. Mayall's adviser recommended that he change his
major, as he would not be able to graduate as a mining engineer with such a handicap. Mayall's mother encouraged him to study whatever interested him the most, and to do it well, so he considered
astronomy as an alternative to mining. After asking many professors in the astronomy department whether they enjoyed their work and whether they made a satisfactory wage, and being content with their answers, he transferred to the
College of Letters and Science to major in astronomy. This did not set him back in his degree requirements because almost all of his first year studies had been in basic physical sciences and mathematics. Eventually Mayall discovered that he greatly enjoyed astronomy, and decided upon a course of graduate level study followed by a career as a research scientist. After graduating in 1928, This activity resulted in him co-authoring papers on
Pluto's mass and orbit with
Seth Barnes Nicholson and others, shortly after Pluto's discovery Mayall returned to Berkeley in 1931 to pursue graduate studies. His
thesis topic, suggested by Hubble, was to count the number of galaxies per unit area on the sky as a function of position on direct plates taken with the
Crossley reflector at Lick. This should have supplemented the counts Hubble himself was making using the and telescopes at Mount Wilson. Mayall successfully completed his thesis and was awarded his
PhD degree in 1934. Hubble complimented Mayall for his work, although significant results were never achieved (nor by Hubble either) due to the lack of accurate magnitude standards for the faint galaxies that were measured and by the (then unrealized) very strong tendency of
galaxies to cluster. While working on his thesis, Mayall had an idea of designing a small, fast
slitless spectrograph, optimized for nebulae and galaxies. He believed that if it were used in conjunction with the Crossley reflector it would make that facility competitive for at least some of the work that Humason and Hubble were doing with the larger Mt. Wilson telescopes. It was never expected to compete with the Mount Wilson instrument for stars or
elliptical galaxies, which have condensed and relatively bright nuclei. The spectrograph was to be used instead to study extended, low-surface-brightness
gaseous nebulae or
irregular galaxies. Mayall's
thesis advisor,
William Hammond Wright, and the then head of the Lick
stellar spectroscopy program,
Joseph Haines Moore, encouraged him to develop his spectrograph. The device was constructed by the Lick Observatory's own workshop, and proved to be more efficient for extended, low-surface-brightness objects, particularly in the
ultraviolet part of the
spectrum, thus confirming the expectations of Mayall. With Wright's strong encouragement, Mayall had used
fused quartz to make ultraviolet transmitting optics, whereas the Mount Wilson spectrographs used heavy glass lenses and prisms, which absorb ultraviolet radiation. ==Lick Observatory==