Final answer:
The question deals with physics, specifically centripetal force and acceleration in the context of artificial gravity on a space station. Calculations would require the radius of the astronaut's running path and the direction of jogging. However, without these details, the exact simulated gravitational acceleration cannot be determined.
Step-by-step explanation:
The subject in question involves the concept of simulated gravitational acceleration in the context of physics. Specifically, it pertains to how an astronaut would feel if jogged in the direction of the rotation of a space station designed to create artificial gravity.
To answer this question, we must look at the formulas for centripetal force and centripetal acceleration: F = ma_c and a_c = v^2/r, where a_c is the centripetal acceleration, v is the velocity, and r is the radius of the circle the astronaut is jogging on. However, without knowing the radius of the path the astronaut is jogging on and the direction of jogging (with or against the rotation), it's impossible to provide a numerical answer to what simulated gravitational acceleration the astronaut would feel.