HomeAstronomiaLancio di massa dalla Luna: sfruttare le anomalie gravitazionali lunari

Lancio di massa dalla Luna: sfruttare le anomalie gravitazionali lunari

Pubblicato il

Moon Loading...

Placing an advanced mass driver on the lunar surface represents a pivotal step in the realm of space exploration, sparking enthusiasm among astronomers and space engineers alike. This innovative structure could significantly enhance the capacity for solar system exploration and the potential for a sustainable human presence beyond Earth. Historically, visionaries like Gerard O’Neill theorized the construction of colossal cylindrical habitats, emphasizing the utility of a lunar mass driver to source building materials. As exploration technology evolves and more in-depth research is conducted, the viability of this engineering marvel seems increasingly attainable.

A noteworthy contribution to this initiative comes from contemporary studies by experts such as Pekka Janhunen from the Finnish Meteorological Institute and Aurora Propulsion Technologies. Their research delves into the unique characteristics of lunar gravity that could enable a mass driver to effectively launch passive payloads into lunar orbit. Such payloads could subsequently be retrieved by high-efficiency systems for further transport within the solar system for processing.

Lunar gravitational anomalies, recognized for some time, have often been seen as obstacles in mission planning. These anomalies can complicate orbital dynamics, leading to quicker-than-expected degradation of satellite paths. However, as articulated by specialists in the field, these peculiarities might well serve as advantageous features rather than mere hindrances.

Mass drivers have been a popular concept in science fiction narratives for years, fueling the imagination regarding their potential applications – illustrated well by various media outlets.

Conventional approaches to deploying mass drivers on the Moon predominantly involve sending either active or passive payloads into orbit. Active payloads necessitate onboard propulsion, which complicates the technology and reduces the amount of the mass available for use elsewhere within the solar system.

In contrast, passive payloads typically conclude in one of two outcomes: either achieving a singular lunar orbit within a day before returning to the lunar surface, or becoming space debris in an erratic trajectory. Both scenarios present significant challenges to the sustainable movement of mass from the lunar surface.

However, innovative discoveries by researchers like Dr. Janhunen reveal potential pathways for resolution. His examination of lunar gravitational anomalies identified by the GRAIL mission suggests locations on the lunar landscape where a mass driver could successfully propel a passive payload into orbit for durations approaching nine days. These advantageous sites, notably along mountainous terrain, feature unique gravitational attributes, particularly on the lunar hemispheres visible from Earth.

The Artemis missions present a tremendous opportunity for pursuing the assembly of a mass driver on the Moon in the coming decades, a task of immense significance detailed in recent investigations.

Extended orbit duration could provide more opportunities for an active tug to efficiently capture the passive lunar payload and transport it to a processing facility, such as a space station located at the L5 Lagrange point between Earth and the Moon. Such an active tug could leverage advanced electrical propulsion technologies developed on Earth, requiring only a single launch.

For successful functionality, the proposed mass driver must achieve lunar escape velocities around 1.7 km/s, a target achievable with currently available technologies. Nevertheless, this ambitious endeavor demands an unprecedented engineering initiative that transcends contemporary achievements in space technology. Each study that elucidates the benefits or reduces the costs associated with harnessing lunar resources incrementally propels humanity closer to actualizing these aspirations of expanding our capabilities within the solar system.

Learn More: P Janhunen – Lanciare massa dalla Luna grazie ad anomalie gravitazionali lunariUT – Moonbase entro il 2022 per 10 miliardi di dollari, afferma NASAUT – NASA desidera spostare carico pesante sulla LunaNSS – L5 News: Aggiornamento sul Mass Driver

Lead Image:DALL-E illustrazione di un lanciatori elettromagnetico lunare

Come questo:

Like Loading…

Ultimi Articoli

Tutto ciò che devi sapere sui pianeti della Galassia di Andromeda

L'universo è incredibilmente ricco di galassie. Si stima che l'universo osservabile contenga circa due...

Il Motivo Per Cui Le Galassie Sono Piatte e Non Sferiche

Quando consideriamo come gli oggetti si organizzano attorno a un...

Nuovo Studio Rivela Come le Civiltà Extraterrestri Possano Diventare ‘Stellarvores’

Uno degli aspetti più complessi dell'astrobiologia e della Ricerca di Intelligenza Extraterrestre (SETI) consiste...

Nuovo Studio Esplora Come le Civiltà Extraterrestri Diventano ‘Stellarvore’

Uno degli aspetti più impegnativi dell'astrobiologia e della Ricerca di Intelligenza Extraterrestre (SETI) consiste...

Contenuti simili

Nuovo Studio Rivela Come le Civiltà Extraterrestri Possano Diventare ‘Stellarvores’

Uno degli aspetti più complessi dell'astrobiologia e della Ricerca di Intelligenza Extraterrestre (SETI) consiste...

Nuovo Studio Esplora Come le Civiltà Extraterrestri Diventano ‘Stellarvore’

Uno degli aspetti più impegnativi dell'astrobiologia e della Ricerca di Intelligenza Extraterrestre (SETI) consiste...

NASA e Roscosmos in disaccordo su causa e gravità della fuga d’aria ISS

WASHINGTON — La NASA e Roscosmos continuano a non concordare sull'origine e sulla gravità...