Time dilation is not a "luck-based" or "awarded" cosmic law; rather, it is a consequence of the fundamental principles of physics, specifically the theory of relativity. Time dilation occurs due to the relative motion or gravitational field strength between two observers. It is a well-established phenomenon supported by experimental evidence and is not dependent on luck or workload completion.
The survival rate of muons in Earth's atmosphere is related to the effects of time dilation. Muons are subatomic particles that are created in the upper atmosphere by cosmic rays. These muons have a relatively short half-life, meaning they decay into other particles after a short period. However, due to time dilation effects caused by their high velocities, some muons can reach the Earth's surface before decaying.
The survival rate of muons is not related to time dilation being a "lucky" or "awarded" cosmic law. It is simply a consequence of their relativistic motion and the resulting time dilation effects. Other fundamental laws of physics, such as Newton's laws of motion, operate under different principles and are not directly related to time dilation. Each law describes specific aspects of the physical world and has its own significance and implications.