India’s upcoming lunar endeavor, Chandrayaan-3, is poised to embark on its pivotal final phase today, primed to execute a precise landing on the lunar terrain, anticipated around 6:04 pm. As validated by ISRO, the mission has diligently adhered to its timeline till August 22, with the added promise of a live broadcast set to commence on Wednesday, specifically at 5:20 pm.
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Considerable attention surrounds the potential outcome of the Lander’s attempt at a ‘soft landing’ on the Moon’s southern extremity, as it heralds a distinctive achievement that would distinguish India as the exclusive nation to accomplish this feat. Upon triumphant realization, the rover—a diminutive vehicle designated to traverse the lunar surface—will emerge from the confines of the Lander.
The inaugural takeoff of Chandrayaan-3 for its lunar odyssey transpired on July 14, accompanied by our elucidation of the mission’s fundamentals: the trajectory of a space launch, the historical context of Chandrayaan-1 and Chandrayaan-2 missions, and more. Should you desire a recap, you can access it by following this link. In the subsequent discourse, we delve deeper into the indispensable significance of a ‘soft landing’ within the mission’s framework, unravel the complexities of touching down on the lunar south pole, and outline the subsequent chapters of India’s accomplishment
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What is a soft landing, and why is Chandrayaan-3 landing on the south pole?
As articulated by ISRO, the mission encompasses a triad of objectives: showcasing a secure and gentle touchdown on the lunar expanse, exemplifying the maneuvering of a rover across the lunar terrain, and orchestrating on-site scientific inquiries.
In the realm of space exploration, a “soft landing” entails a meticulously orchestrated descent, ensuring the spacecraft’s arrival occurs with a gentle, meticulously controlled velocity, thereby safeguarding it from any detrimental impact. Amitabha Ghosh, a prominent mind behind NASA’s Mars Rover mission, artfully elucidated this concept in an article featured within The Indian Express, painting a vivid mental image: picture a spacecraft hurtling through the cosmic expanse, maintaining a velocity tenfold that of an airplane, yet necessitating an almost complete cessation of motion to gracefully alight upon Earth’s surface — a remarkable achievement achieved within a matter of minutes and, notably, achieved autonomously, devoid of any human intervention; in essence, encapsulating the essence of a “soft landing.”
Demonstrating such an achievement not only underscores the technical prowess of a spacecraft but also serves as a testament to its engineering ingenuity; a fact accentuated by the chosen landing spot nestled close to the moon’s southern pole at an impressive latitude of 70 degrees.
In contrast to the established norm of lunar landings congregating around the equatorial zone—largely due to the relative ease and safety it affords—this pioneering endeavor marks a departure. The alluring prospect of a topographically favorable terrain coupled with moderate temperatures lends itself to an extended and unhindered operational phase for scientific instruments. Moreover, the consistent presence of sunlight emerges as an advantageous asset, ensuring a steady influx of energy for instruments reliant on solar power.
In sharp contrast, the lunar polar zones exhibit a distinct demeanor; vast stretches are enshrouded in perpetual darkness, devoid of any trace of sunlight, plunging temperatures to staggering lows of up to minus 230 degrees Celsius, thereby posing formidable challenges to instrument functionality, further exacerbated by the omnipresence of expansive craters dotting the terrain.
Consequently, the enigmatic polar domains of the Moon have persisted as untouched realms, shrouded in mystery. The frigid and unwelcoming conditions prevalent in these areas could potentially result in a state of suspended animation, where any elements ensnared within would be conserved in an unaltered state over time. Thus, the geological composition of the lunar crust and substrate in the northern and southern extremities stands as a repository of potential insights into the nascent stages of our Solar System. Worth highlighting is Chandrayaan-2’s previous endeavor to explore this very region back in 2019. Regrettably, its ambitious attempt at a gentle landing faltered, leading to a loss of communication upon impact with the lunar surface.