Bacteriophages, also known as phages, are viruses that infect bacteria. There are estimated to be 10^31 phages worldwide. Phages are vectors of horizontal gene transfer, sources of diagnostic and genetic tools, and novel therapeutic agents. To date, 907 phages infecting Arthrobacter, a genus of bacteria commonly found in soil, have been isolated. Of the 254 phages infecting Arthrobacter globiformis, only 83 have been sequenced. The purpose of this study was to sequence and annotate the genomes of novel A. globiformis phages and compare them to other A. globiformis phages. Eight novel phages infecting A. globiformis were discovered and isolated. Two phages, Jinkies and Bumble, were sent for full genome sequencing. Using manual annotation and auto-annotation programs, their genomes were annotated. Jinkies was classified as a singleton and Bumble as a cluster FH virus. Furthermore, it was found that the majority of A. globiformis phages examined share few proteins that perform a similar function, indicating a high degree of genetic diversity among A. globiformis phages. It was also determined that the architecture of A. globiformis phages is not conserved in the right arm (the region for metabolism and regulation). This study expands the library of Arthrobacter phages available for structural and genomic studies and presents new opportunities to study their life cycles and applications. In addition, A. globiformis can cause irritation and allergic reactions in humans, thus, such research may contribute to the development of novel therapeutic agents. Future investigations will send all eight isolated A. globiformis phages for full genome sequencing.