Currently, there is no direct evidence that biological aging in a lower gravitational potential obeys time dilation exhibited by atomic clocks rather than the faster ticking of pendulum clocks due to a stronger gravitational field. Time dilation is a well-established phenomenon predicted by the theory of general relativity, and it has been experimentally confirmed using atomic clocks. However, the specific effects of time dilation on biological systems, especially in different gravitational potentials, have not been extensively studied or observed.
The effects of gravity on biological aging are complex and not fully understood. Gravitational forces can influence physiological processes in organisms, but the direct relationship between gravitational potential and biological aging is still an active area of research. Studies have been conducted on the effects of microgravity (lower gravitational potential) on various organisms, including humans, but they have primarily focused on physiological changes rather than the direct measurement of time dilation.
To establish a clear link between time dilation and biological aging in different gravitational potentials, further research and experimentation would be necessary. It would require studying the effects of different gravitational environments on biological systems and comparing the observed changes in aging processes with the predictions of time dilation. Such experiments would likely involve long-duration space missions or other controlled settings where gravity can be manipulated and monitored precisely.