Location of discovery: Between Greenland and Canada
Google Coordinates: 81° 2'0.79"N 84°58'37.99"W
On September 12, 2020, a remarkable discovery was made by Dr. Brian May, the lead guitarist of the legendary rock band Queen, while working with NASA on the OSIRIS-REx mission. During his analysis of asteroid Bennu’s surface, Dr. May identified what appeared to be an alien face etched into a boulder. This finding not only intrigued the scientific community but also captivated UFO enthusiasts worldwide. Here’s an in-depth look at this fascinating discovery, the work of Dr. Brian May with NASA, and the broader implications for the search for extraterrestrial life.
Asteroid Bennu, a near-Earth object that has been closely studied by NASA's OSIRIS-REx mission, has yielded numerous scientific insights since its exploration began. On September 12, 2020, while examining stereoscopic images of Bennu’s surface, Dr. Brian May spotted something extraordinary. In the center of the photo, he discerned a face-like feature on a large boulder, known as Benben Saxum.
The boulder, measuring approximately 170 feet (52 meters) in height, is located on Bennu’s southern hemisphere. The stereo images, created by Dr. May and his colleague Claudia Manzoni, provided a 3D view of this massive rock and the surrounding slopes. The clear depiction of a face-like structure in the images suggested intentionality or at least a remarkable coincidence in the natural formations of the asteroid.
Dr. Brian May is not just a rock star; he holds a PhD in astrophysics and has a deep passion for astronomy. His collaboration with NASA on the OSIRIS-REx mission underscores his dual expertise in both music and science. The OSIRIS-REx mission, which stands for Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer, aims to collect samples from asteroid Bennu and return them to Earth for detailed analysis.
In January 2020, Dr. May and Claudia Manzoni formally joined the OSIRIS-REx science team as collaborators, tasked with creating stereoscopic data products. These 3D images are crucial for the mission, helping scientists to select optimal sites for sample collection. Dr. May’s involvement brought a unique perspective to the team, combining his scientific knowledge with his skill in creating detailed stereoscopic images.
Upon closer examination of the stereoscopic images, the face on Benben Saxum became more pronounced. The structure appeared to have eyes, a nose, and a mouth, aligned in a way that suggested intentional design rather than random geological formations. While the scientific community remains cautious about attributing such features to intelligent design, the clarity of the face has led to widespread speculation.
Stereoscopic Imaging: The use of stereoscopic imaging allows for a three-dimensional perspective of Bennu’s surface. By processing the images from different angles, Dr. May and Manzoni were able to highlight features that might otherwise go unnoticed. This technique is particularly effective in identifying surface textures and shapes, which can be critical in geological and extraterrestrial studies.
Geological Formations: Geologists often encounter natural formations that resemble familiar shapes, such as faces or animals. These are typically explained as pareidolia, a psychological phenomenon where the human brain perceives familiar patterns in random stimuli. However, the symmetry and detail of the face on Benben Saxum have led some to speculate that it could be more than just a coincidence.
Possible Explanations: While the face-like structure is intriguing, it’s essential to consider all possible explanations. These could include natural erosion, impact cratering, and other geological processes that could create such shapes. Alternatively, if the feature were artificially created, it would suggest the presence of intelligent beings with the capability to shape large boulders on an asteroid’s surface.
Dr. May’s discovery of the face on Bennu adds to the growing body of evidence that suggests we might not be alone in the universe. Here are some significant aspects of UFO research and the search for extraterrestrial life:
Historical Sightings: The study of UFOs and extraterrestrial life has a long history, with numerous sightings and encounters reported over the decades. From the Roswell incident in 1947 to the more recent Navy pilot encounters, the evidence continues to accumulate, pointing towards the possibility of intelligent extraterrestrial beings.
Scientific Investigations: NASA and other space agencies have been actively searching for signs of life beyond Earth. Missions to Mars, Europa, and Enceladus aim to find microbial life or bio-signatures that indicate past or present life. The discovery of an alien face on Bennu, if verified, could significantly advance these efforts.
Technological Implications: The presence of intelligent extraterrestrial life could have profound implications for technology and science. Understanding their methods and technologies could lead to breakthroughs in space travel, energy production, and materials science. Dr. May’s finding might be a small piece of a much larger puzzle.
Philosophical and Ethical Considerations: The discovery of extraterrestrial life would challenge our understanding of existence and our place in the universe. It raises ethical questions about how we interact with other intelligent beings and the responsibilities we have as explorers of the cosmos.
Dr. Brian May’s involvement in the OSIRIS-REx mission highlights the significant impact public figures can have in advancing scientific knowledge and awareness. Here are some key points to consider:
Bridging Worlds: As a renowned musician and a respected scientist, Dr. May bridges the gap between popular culture and scientific inquiry. His dual career inspires people from diverse backgrounds to engage with science and explore their own interests.
Public Engagement: Public figures like Dr. May can effectively communicate complex scientific concepts to a broader audience. His discovery on Bennu has garnered attention from both the scientific community and the general public, raising awareness about the OSIRIS-REx mission and the potential for extraterrestrial life.
Inspiring the Next Generation: Dr. May’s journey from rock star to astrophysicist serves as an inspiration to young people, demonstrating that it is possible to pursue multiple passions and achieve excellence in different fields. His work encourages aspiring scientists and musicians to follow their dreams and contribute to the advancement of knowledge.
The OSIRIS-REx mission continues to provide valuable data about asteroid Bennu, and Dr. May’s discovery is just one of many significant findings. Here are some future directions for the mission:
Sample Return: One of the primary objectives of the OSIRIS-REx mission is to collect samples from Bennu’s surface and return them to Earth. These samples will be analyzed for their chemical composition, mineralogy, and potential bio-signatures. The face-like structure on Benben Saxum could provide additional context for understanding Bennu’s history and formation.
Further Analysis: Continued analysis of Bennu’s surface using advanced imaging techniques will help to identify other potential anomalies and features. Dr. May and his colleagues will likely continue to produce stereoscopic images, contributing to a more comprehensive understanding of the asteroid.
International Collaboration: The OSIRIS-REx mission is a collaborative effort involving scientists from around the world. Future missions to other asteroids and celestial bodies will benefit from the expertise and experience gained from studying Bennu. Collaborative efforts will enhance our ability to search for extraterrestrial life and explore the solar system.
Public Involvement: Engaging the public in the mission’s discoveries and progress is crucial for fostering a sense of shared exploration. NASA’s outreach programs, combined with the involvement of public figures like Dr. May, will continue to inspire curiosity and support for space exploration.
The discovery of an alien face on asteroid Bennu by Dr. Brian May, the lead guitarist of Queen, is a fascinating development in the search for extraterrestrial life. This finding, made possible through advanced stereoscopic imaging techniques, highlights the potential for intelligent design in celestial formations and adds to the growing body of evidence supporting the existence of extraterrestrial beings.
Dr. May’s dual role as a musician and scientist demonstrates the power of interdisciplinary collaboration and public engagement in advancing scientific knowledge. His work with NASA on the OSIRIS-REx mission has not only contributed to our understanding of asteroid Bennu but has also inspired a global audience to take an interest in space exploration and the search for extraterrestrial life.
As we continue to explore the cosmos, discoveries like the face on Bennu remind us of the vast and mysterious universe we inhabit. The pursuit of knowledge, driven by curiosity and a desire to understand our place in the universe, will undoubtedly lead to even more remarkable findings in the years to come. Through the combined efforts of scientists, public figures, and the general public, we are poised to uncover the secrets of the universe and perhaps one day confirm that we are not alone.
In May 2020, UFO researcher Scott C. Waring made a remarkable discovery on the surface of the Moon. Analyzing a NASA photo (A17 Geophone Rock), Waring identified what appears to be an artistic sculpture featuring two faces side by side – a larger male face on the left and a smaller female face on the right. Together, these faces merge to form a single, unified visage, symbolizing the idea that two halves complete one another. This discovery, if verified, could have profound implications for our understanding of extraterrestrial life and the history of intelligent beings beyond Earth.
The intriguing face sculpture was found in a NASA photo from the Apollo 17 mission, which captured various geological features of the Moon’s surface. The specific image, known as the A17 Geophone Rock, showcases a rock formation that, upon closer examination, reveals two distinct faces.
Details of the Faces:
Artistic and Poetic Symbolism: The merging of the two faces into one symbolizes unity and completeness, a theme that resonates deeply with human culture and art. This poetic representation suggests that whoever created this sculpture had a sophisticated understanding of symbolism and aesthetics.
Geological Considerations: While natural erosion and geological processes can create interesting shapes, the symmetry and detail of the faces suggest intentional design rather than random formation. This raises the possibility that intelligent beings with artistic sensibilities once inhabited or visited the Moon.
Image Enhancement: To fully appreciate the faces, the image needs to be enhanced by adjusting the brightness and contrast. This process brings out the details of the rock formation, making the facial features more pronounced.
Viewing Angles: Tilting the photo 90 degrees to the right is crucial for observing the smaller female face. This angle provides a new perspective that reveals the intricacies of the sculpture, emphasizing the connection between the two faces.
Geological Context: Understanding the geological context of the rock formation helps differentiate between natural formations and potential artificial structures. The location and composition of the rock suggest it is part of the lunar surface's ancient landscape, which could have been modified by intelligent beings.
If Waring's interpretation of the lunar rock formation is correct, the discovery has profound implications for humanity. Here are several key areas where this finding could impact our understanding and future endeavors:
Evidence of Extraterrestrial Life: The existence of such an artistic sculpture on the Moon would be strong evidence of intelligent extraterrestrial life. This would challenge the current scientific consensus that humans are the only intelligent beings in the solar system and possibly the universe.
Historical Significance: Discovering intelligent life forms that once visited or inhabited the Moon would rewrite the history of our solar system. It would suggest that civilizations with advanced capabilities existed long before humans and had the technological means to travel and leave their mark on other celestial bodies.
Cultural and Philosophical Impact: The faces’ symbolic representation of unity and completeness resonates with human culture, suggesting a shared understanding of these concepts across civilizations. This discovery could lead to a deeper philosophical reflection on the nature of life, art, and the connections between different intelligent species.
Scientific Research and Exploration: This finding would likely prompt increased interest and funding for lunar exploration. Future missions could focus on investigating other potential artificial structures on the Moon, collecting samples, and conducting detailed analyses to understand the origins and creators of such formations.
Technological Advancements: Understanding how these sculptures were created could provide insights into the technology and materials used by these intelligent beings. This knowledge could lead to advancements in our own technology, particularly in areas related to space travel, construction, and materials science.
The discovery of the two faces on the Moon is part of a larger pattern of reported extraterrestrial structures across our solar system. Here are some notable examples:
The Face on Mars: Discovered in the Cydonia region by the Viking 1 orbiter in 1976, the face on Mars has sparked debate and speculation for decades. Some scientists attribute it to natural erosion, while others believe it could be an ancient monument created by an intelligent species.
Structures on the Moon: Various anomalies have been reported on the Moon, including pyramidal shapes, domes, and other geometric formations. These findings often correlate with theories about ancient lunar civilizations and alien bases.
Artifacts on Asteroids: In addition to structures on planets and moons, researchers have identified potential artificial objects on asteroids. For instance, the discovery of a large, square structure on asteroid Eros suggests the presence of intelligent life in the asteroid belt.
Underwater Anomalies: On Earth, several large, geometric structures have been identified on the ocean floor. Some researchers believe these could be remnants of ancient civilizations with advanced technology, possibly of extraterrestrial origin.
Throughout history, faces have held significant cultural, religious, and social importance across civilizations. Here are some examples of the symbolic power of faces in human culture:
Ancient Civilizations:
Medieval and Renaissance Art: During the medieval and Renaissance periods, artists focused on creating lifelike portraits of important figures, emphasizing facial features to convey emotion, status, and identity. Religious iconography also prominently featured faces of saints and deities.
Modern Symbolism: In contemporary culture, faces continue to be powerful symbols. From political posters to digital emojis, facial representations are used to communicate messages, express emotions, and build identities.
Psychological Significance: The human brain is wired to recognize faces, a phenomenon known as pareidolia. This ability helps in social interactions and emotional recognition, explaining why people often perceive faces in inanimate objects and natural formations.
To further validate the discovery of the faces on the Moon, several investigative steps can be taken:
Advanced Imaging Techniques: Using high-resolution imaging technology, researchers can capture detailed views of the rock formation from multiple angles. This would help confirm the presence of the faces and provide more information about their structure.
3D Modeling and Analysis: Creating 3D models of the rock formation allows for a comprehensive analysis of its features. By examining the models, scientists can determine whether the faces are a result of natural processes or artificial design.
Geological Surveys: Conducting geological surveys of the area surrounding the rock formation can provide insights into its composition and origins. Understanding the geological context helps differentiate between natural and artificial structures.
Robotic Missions: Sending a robotic probe to the site could yield invaluable data. The probe could capture high-resolution images, conduct surface analysis, and possibly take samples for further study.
Collaboration and Peer Review: Engaging the scientific community in the investigation ensures a rigorous and unbiased analysis. Collaboration between researchers from different fields, including geology, astronomy, and anthropology, can provide a holistic understanding of the discovery.
Raising public awareness about the discovery of the lunar faces is crucial for fostering interest and support for further research. Here are some strategies for engaging the public:
Educational Outreach: Creating educational programs and materials about the discovery can help inform the public about its significance. Schools, museums, and science centers can play a key role in disseminating this information.
Media Coverage: Leveraging media platforms to share the story of the lunar faces can reach a wide audience. Articles, documentaries, and news segments can highlight the discovery and its implications for humanity.
Citizen Science: Encouraging public participation in the investigation through citizen science initiatives can generate additional data and insights. Amateur astronomers and enthusiasts can contribute to the search for similar structures on the Moon and other celestial bodies.
Interactive Platforms: Developing interactive platforms, such as websites and mobile apps, allows the public to explore the lunar faces and related discoveries. These platforms can provide detailed information, images, and interactive features to engage users.
The discovery of two faces on the Moon, representing a male and female figure, is a significant finding that could provide evidence of intelligent extraterrestrial life. This artistic and poetic sculpture, revealed through careful analysis of NASA photos, challenges our understanding of the Moon’s history and the potential for ancient civilizations beyond Earth.
The implications of this discovery are profound, spanning scientific research, technological advancements, cultural reflection, and philosophical inquiry. As we continue to explore the cosmos, findings like the lunar faces remind us of the vast and mysterious universe we inhabit and the possibility that we are not alone.
Through collaborative efforts, advanced imaging techniques, and rigorous scientific investigation, we can further validate and understand the origins of these lunar faces. Public engagement and awareness will be crucial in fostering support for ongoing research and exploration. The discovery of the faces on the Moon serves as a testament to human curiosity and our relentless pursuit of knowledge.
As we gaze up at the night sky, let this discovery inspire us to look beyond the familiar and embrace the wonders that lie hidden in the cosmos. The journey to uncover the secrets of the Moon and other celestial bodies is just beginning, and with each step, we move closer to understanding our place in the universe.