Final answer:
The question appears to be about the activation time of Phoenix's Curveball from the game 'Valorant', but since it is a game mechanic, real-world physics doesn't apply. Using the example provided, Nolan Ryan's baseball pitch at 160.0 km/h takes approximately 0.414 seconds to travel 18.4 meters, which is longer than the average human reaction time to a visual stimulus, 0.25 seconds.
Step-by-step explanation:
The time it takes for Phoenix's Curveball(Q) to pop, or activate, in the game 'Valorant' is not directly stated in the question, nor is it typically measured in real-world time since it is a game mechanic. However, if you were referring to an actual physics question, it would be necessary to have the speed of the flashbang and the distance it travels before popping to calculate the time. For instance, if we take the problem of Nolan Ryan's baseball pitch traveling at 160.0 km/h to cover 18.4 m:
- First, convert the speed to meters per second: 160.0 km/h is approximately 44.44 m/s.
- Next, use the formula time = distance/speed.
- Then, calculate the time it takes for the baseball to reach home plate: 18.4 m / 44.44 m/s = approximately 0.414 seconds.
Comparing this to the average human reaction time to a visual stimulus of 0.25 seconds, it's clear that a batter must have excellent reflexes to hit a pitch from Nolan Ryan.