Space and man (3)

The solar system’s secrets: Planets, moons, and the quest for life beyond earth

AS we explore the vast expanse of space, we embark on a journey that modern science and technology have made more accessible than ever, offering us insights into the boundless universe and revealing mysteries that science has yet to unravel. As we delve into the planets, moons, and countless celestial bodies within our solar system, it is important to acknowledge that this curiosity about space is not new. In last week’s article on ancient African perspectives on space, we looked at how early African civilizations understood and interpreted the heavens, with a worldview that embraced both the mystical and the practical.  From the Dogon people’s intricate knowledge of Sirius to the celestial alignments seen in the architecture of ancient Egypt, these cultures connected deeply with the cosmos.

In the modern era, our research and knowledge may have advanced, but the wonder and respect for the universe that these ancient civilizations demonstrated remain timeless.  I will explore the scientific perspectives of the solar system and its natural satellites and their significance to us on Earth. I will also attempt to provide some scientific perspective on the quest to find the possibility of extraterrestrial life.

Scientific perspectives on the solar system

The solar system, a complex and dynamic collection of celestial bodies, represents one of humanity’s most profound areas of study. Encompassing the Sun, eight primary planets, their moons, and countless other objects such as asteroids and comets, the solar system has captured scientific curiosity for centuries.  The formation of the solar system approximately 4.6 billion years ago is thought to have begun with the gravitational collapse of a molecular cloud, leading to the development of the Sun at its core and other bodies orbiting in stable, elliptical paths.

The planets and the solar system structure

Our understanding of the planets and the layout of the solar system has evolved considerably since the days of ancient astronomers. Early heliocentric models by Copernicus shifted the understanding of Earth’s place in the cosmos, paving the way for Kepler’s laws of planetary motion and Newton’s law of gravitation. Today, with the help of powerful telescopes, spacecraft, and satellites, we can study the intricate details of each planet. Each planet’s unique characteristics have not only provided insight into planetary formation but have also helped scientists understand the conditions necessary for sustaining life. For instance, the study of Venus’s runaway greenhouse effect offers cautionary insights into climate change, while the study of Mars, once thought to be like Earth, reveals important clues about planetary habitability and geologic evolution.

The vastness of our solar system inspires awe in a way that earthly travel simply cannot replicate. On Earth, even the longest journeys are bound by a known horizon. We can travel thousands of miles across continents, soar above oceans, and trek across deserts, yet we remain confined within familiar boundaries. In contrast, the solar system stretches beyond anything we can easily comprehend. Our closest neighbor, the Moon, is about 384,000 kilometers away – roughly equivalent to circling Earth nearly ten times. Mars, often considered our next destination in space exploration, is tens of millions of kilometers away, with travel times that would take months. The sheer scale of these distances highlights a level of vastness that no terrestrial journey can capture. As we travel farther out, our understanding of scale shifts even more dramatically. Beyond Mars lies the asteroid belt, then the giant gas planets like Jupiter and Saturn, each separated by millions of kilometers.

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The journey to the outermost planet, Neptune, would take over 12 years with current spacecraft technology, and yet, even in Neptune’s orbit, we are still within the Sun’s gravitational reach, just a small part of the larger Milky Way galaxy. The solar system reminds us of how small and fleeting our earthly perspectives are, evoking a sense of humility and wonder that we can scarcely find in any land-based journey. This scale not only challenges us to stretch our imaginations but also drives humanity to explore beyond our home world, chasing the mysteries that lie in the depths of our cosmic backyard.

To put it in perspective, the Planet that gets closest to the Earth as it revolves around the sun is Venus. Venus is visible to the naked eye in the sky when it is in our sky. It appears like a star and appears as the brightest. Venus is the first celestial body to become visible in the sky in the evening and is the last one to disappear from the sky at sunrise. This is why it is known as the Morning and the Evening Star. At its closest proximity to Earth, it is only around 24 million miles (38 million kilometers) away from our planet. Assuming airplanes can fly in space, it will take an Airbus A380 which travels at a maximum speed of 1087 Kilometers per hour about 4 years to get to Venus at its closest proximity to Earth.

Natural satellites and their significance

Natural satellites, commonly referred to as moons, are an essential part of our solar system’s architecture. Most of the planets, and even some of the larger asteroids, have moons of varying sizes, compositions, and orbits.  For instance, Jupiter’s moon Ganymede is the largest moon in the solar system, even bigger than the planet Mercury, while Earth’s own Moon is unique in its size relative to its host planet. These satellites have critical roles, influencing their parent planets in both direct and indirect ways. One of the most immediate examples of this significance is Earth’s Moon. The Moon’s gravitational influence creates tides, which play an essential role in Earth’s climate and ecosystem stability. Tides affect ocean currents, influence coastal weather patterns, and shape marine ecosystems that support a vast diversity of life. The Moon has also stabilized Earth’s axial tilt, providing a stable climate over millions of years—a factor that has supported the development of life.

The significance of Earth’s moon is better understood if we can change our perspective and retort to the question: What if there is no moon? Or, what if the moon disappeared? The first thing we will observe is that the night gets darker. This may lead to the extinction of predatory animals that rely on nocturnal hunting for their survival, thereby resulting in an imbalance in our ecosystem. Also, the water level in the ocean goes down significantly. This will impact fishing activities and significantly affect the marine ecosystem, thereby posing a serious challenge to food security. The speed of rotation of the earth which gives rise to the phenomenon of night and day will increase without the presence of the moon. Consequently, the length of the day may be reduced to about 6 hours daily.

Moons beyond Earth, such as those of Jupiter and Saturn, also hold particular significance. Europa, one of Jupiter’s largest moons, is covered with a thick layer of ice and is believed to have a subsurface ocean beneath. This ocean, kept warm by tidal heating due to gravitational interactions with Jupiter, might have the conditions necessary to support microbial life. Titan, Saturn’s largest moon, has a thick atmosphere and liquid methane lakes, making it one of the most Earth-like bodies in the solar system, though with vastly different environmental conditions.

Existence of extraterrestrial life

The question of whether life exists elsewhere in the universe has intrigued humanity for millennia. With the vastness of the solar system alone, scientists are continually studying conditions on various celestial bodies to determine if life, in any form, could exist beyond Earth. The search for extraterrestrial life has focused on moons, planets, and even asteroids where liquid water or organic molecules – two of the main building blocks of life as we know it – may be present.

Mars has long been a focus of this search due to evidence of past liquid water and the presence of essential elements for life. The discovery of periodic methane emissions on Mars, coupled with subsurface ice deposits, has further fueled speculation that microbial life might exist beneath the planet’s surface. Additionally, both Europa and Enceladus, a moon of Saturn, have shown strong evidence of subsurface oceans and hydrothermal activity, conditions that could theoretically support life.

The study of extremophiles on Earth – organisms that thrive in extreme conditions such as hydrothermal vents, acidic lakes, and subzero environments – has expanded the scope of where scientists believe life might exist. These organisms have shown that life can persist under conditions previously thought to be uninhabitable, supporting the idea that extraterrestrial life, if it exists, could be found in environments similar to those of icy moons or within Mars’ harsh landscape.

Significance of the search for extraterrestrial life

The search for life beyond Earth is not merely a scientific endeavour but a philosophical one as well. Discovering even the simplest forms of life elsewhere in the solar system would profoundly impact our understanding of biology, evolution, and humanity’s place in the universe. The implications are vast: such a discovery would challenge assumptions about the rarity of life and could even provide insights into how life originated on Earth. From a technological perspective, this search drives innovation. Missions such as the Mars rovers, the Cassini mission to Saturn, and the Galileo mission to Jupiter have all expanded our scientific capabilities. Upcoming missions like Europa Clipper aim to further investigate potential habitats for life, bringing us closer to answering one of humanity’s oldest questions.

The solar system remains an awe-inspiring frontier of scientific discovery. Our growing understanding of its structure, the planets, and natural satellites continually reshapes our perception of the universe. By studying the solar system’s composition and the role of natural satellites, we gain insight into the delicate balance required to sustain life and the profound interconnectedness between celestial bodies.

The quest for extraterrestrial life underscores the broader human desire to know if we are alone in the universe—a search that challenges and inspires us to explore, innovate, and broaden our understanding of what life can be. Each new mission and discovery not only deepens our knowledge but also expands the realm of possibility, bringing us closer to answers that have captivated humanity for centuries.

Please send your comment or opinion to president@abuad.edu.ng

AARE AFE BABALOLA, OFR, CON, SAN LL.D (Lond.)