Final answer:
In physics, the maximum height reached by a projectile like Jett's Updraft (Q) is solely dependent on the vertical component of the initial velocity and the gravitational acceleration, assuming no air resistance.
Step-by-step explanation:
When considering Jett's Updraft (Q) ability, we look at it from a physics perspective, mimicking projectile motion. The height reached by a projectile is not dependent on the horizontal velocity but on the vertical component of the initial velocity and gravitational acceleration. Assuming there is no air resistance, a projectile with an initial vertical velocity (vertical component) of 67.6 m/s will reach a maximum height of 233 meters. We also must note that the acceleration due to gravity is a constant at -9.8 m/s2 and acts in the opposite direction to the upward motion of the projectile.
The maximum height achieved by any projectile, such as a rocket releasing its booster, depends solely on its initial velocity's vertical component. Therefore, if Jett's Updraft (Q) is akin to this physical scenario, the height achieved will follow the same principles.