The world of space exploration and astronomy is constantly evolving, driven by new discoveries, innovations, and stretching the boundaries of our understanding. One such landmark discovery to pique the curiosity of astronomers worldwide is the "2024 EX90."

2024 EX90 is a relatively unknown Near-Earth Object or NEO, discovered in March 2024. NEOs are considered to be comets and asteroids that have been nudged by the gravitational attraction of nearby planets into orbits that allow them to enter Earth's neighborhood. Their paths offer unprecedented opportunities to study the history of our solar system.

2024 EX90 is known for its unique aspects and the mystery it harbors. This space object has an impressive estimated diameter of around 14 meters and a staggering orbital period of 1.09 years—that's almost the same as Earth's orbit around the sun.

While many NEOs have been flagged for possibly colliding with Earth, 2024 EX90 isn't a significant threat as per present data. However, one must remember that accurate prediction requires comprehensive information about its size, shape, composition, and most importantly, its precise future path. Slight uncertainties in any of these aspects can lead to considerable disparities in collision predictions.

The space object's significance lies beyond the superficial concern of collision risk. Like most NEOs, the object’s presence offers invaluable insights into the early solar system. As remnants of the solar system formation process, NEOs can potentially unravel key aspects of planetary origin and evolution.

The study of 2024 EX90 is further enhanced by observational technology advancements. From Earth-based telescopes to space probes, astronomers now have an array of observational tools to study NEOs in unprecedented detail. These tools are crucial in plotting the trajectory of 2024 EX90, assessing challenges and opportunities it presents, and ultimately gauging the depth of its impact on our understanding of the cosmos.

Given its close orbital distance to Earth, there is also the possibility that the study of 2024 EX90 can contribute significantly to the human exploration of the space beyond our planet. This includes fields like asteroid mining, which is predicated on the ability to reach, land, and extract resources from NEOs.

In conclusion, the discovery and ongoing study of space objects like 2024 EX90 represent an exciting phase in astronomical research. Far from being merely celestial anomalies, these bodies offer us a fascinating glimpse into our cosmic past, drive innovation in technology and could even underpin the future of space exploration.