Inertial effects can affect several properties of physical systems. In
particular, in the context of quantum mechanics, such effects have been studied
in diverse contexts. In this paper, starting from the Schr\"{o}dinger equation
for a rotating frame, we describe the influence of rotation on the energy
levels of a quantum particle constrained to a one-dimensional ring in the
presence of a uniform magnetic field. We also investigate how the persistent
current and the magnetization in the ring are influenced by temperature and
rotating effects