The concept of stopping time is purely hypothetical and not currently possible based on our understanding of physics. However, if we imagine a scenario where time is stopped while everything else remains unchanged, the behavior of light can be explored.
In physics, light is an electromagnetic wave that travels at a constant speed in a vacuum, which is approximately 299,792,458 meters per second (or about 186,282 miles per second). The speed of light is a fundamental constant and is not dependent on time.
If time were to stop while light waves were propagating, the waves themselves would freeze in their current state. However, this freezing of time would not cause the light waves to disappear. They would simply be paused in their progression, much like a paused video frame.
From the perspective of an observer within the frozen time frame, light would appear motionless, as if it were suspended in space. However, from the perspective of an observer outside the frozen time frame (assuming that observer could exist outside the effects of stopped time), the light waves would still exist, but they would not be perceived as moving.
It's important to note that this concept of frozen time is purely hypothetical, as our current understanding of physics does not support the idea of stopping time.