Brief Summary
This video investigates a sphere UFO captured in Buga, Colombia. The investigation involves analyzing the sphere's composition, its potential energy source, and the authenticity of videos featuring the object. The journalist team seeks to determine if the sphere is an out-of-this-world object or an elaborate hoax, consulting with scientists and visiting the National Autonomous University of Mexico (UNAM) for detailed analysis.
- The sphere is 72% aluminum and 22% silicon, with unusual properties like changing density under magnetic fields.
- Researchers found optical fibers in the sphere's pores, suggesting it may be equipped with sensors for atmospheric conditions.
- A theory is proposed that the sphere uses a principle similar to a Tesla coil for energy, combined with techniques seen in flying spiders.
Introduction: The Sphere of Buga
The video introduces the sphere captured in Buga, Colombia, questioning its origin and authenticity. The narrator highlights the increasing global interest in levitating spheres, noting that governments and congresses are debating their ownership and the potential dangers they pose, especially near military installations and aircraft. The sphere in question was recorded by multiple individuals, eventually recovered by witnesses, and has since been passed through various hands, exhibiting strange properties such as a fluctuating weight and the ability to evaporate water without heat.
Criticism and Investigation
The journalist addresses criticism surrounding the sphere's investigation, particularly due to its association with Kamie Mason, known for the Nazca mummies. The narrator defends the Nazca mummies research, stating that he personally investigated them with scientists and participated in a hearing in the Congress of Peru. He then details his decision to further investigate the sphere, aiming to provide viewers with a firsthand experience, using toys to test the sphere and exploring theories about its flight mechanism, which is inspired by natural phenomena.
Initial Examination of the Sphere
The journalist arrives in Mexico to examine the sphere, accompanied by Jaime Maussan. The sphere has old writings, and initial analyses suggested it was 95% aluminum. The sphere seems to have an internal power source, as indicated by lights turning on by themselves in the studio. Researchers have experienced headaches when near the sphere, and some feel goosebumps upon touching it. The sphere feels cold like metal, and the university is conducting tests to determine its composition and properties.
Material Analysis and Authenticity
The analysis has not yet identified the sphere's composition, and there is nothing like it on Earth. The holes on the sphere appear to be the result of manual labor rather than technology. The videos of the sphere are authentic, although the audio in one video was modified for security reasons. The sphere touched high voltage cables, leaving a visible mark. The sphere is composed of 72% aluminum and 22% silicon, tougher than space-grade materials. The hardness of the aluminum changes after magnets are applied, and the measurements are unstable.
Challenges and Speculations
The investigation is ongoing, with many aspects of the sphere remaining a mystery. The challenge is to make it levitate again. There is negativity from researchers who haven't directly examined the sphere. Maussan emphasizes that the investigation is open, and scientists are welcome to examine the sphere and form their own conclusions. The journalist and Maussan consider the possibility of the sphere being a hoax, but note the traceability, numerous witnesses, and high-quality video recordings make it unlikely.
Properties and Sensations
As the journalist approaches the sphere, he experiences goosebumps. The first time Maussan held the sphere, he trembled uncontrollably. When the sphere was brought into the studio, the lights flickered. The sphere spins on an exact axis of rotation when levitating. Scientists discovered two important phases with distinct densities at the sphere's core. The sphere's density changes when a strong magnet is applied, indicating that a magnetic field is moving something inside.
Theories on Energy Source and Propulsion
The journalist speculates on the sphere's energy source, drawing inspiration from NASA satellites and Nikola Tesla's Wardenclyffe tower. He suggests the sphere might use a principle similar to a Tesla coil, with internal rotation generating negative electric charges. This rotation could create an electromagnetic field, which is far more powerful than gravity. The scratches on the sphere suggest it may have been anchored and spun like a top to initiate its energy generation and levitation.
Natural Inspiration and Descent
The journalist draws a parallel to flying spiders that use ballooning, releasing silk threads to capture energy from air currents and electric fields. The sphere's descent is attributed to touching a high-voltage cable, causing a disharmonic electrical discharge that reduced its rotation speed. The sphere then gradually slowed down and descended rather than falling.
Changes and Anomalies
The sphere weighed very little when first discovered but now weighs more. Initially, water poured on the sphere would evaporate, but this no longer happens. The sphere appeared to be in an error mode after descending, with a residual field attempting to reactivate it. The changes in mass occurred as the sphere tried to levitate and failed, eventually settling at a deadweight of 10.13 kilos. The evaporation of water was likely due to an ionic effect rather than a thermal effect, potentially causing irritation if inhaled.
Certainty and Material Composition
The researcher expresses over 90% certainty that the sphere is anomalous based on laboratory research. The materials that make up the sphere are found on Earth, but the way the object obtains its energy source is the key issue. The density of the metal changes with magnetic fields, which is measured with scientific instruments. The researcher proposes a theory about the energy source.
Replicability and Thermal Analysis
The researcher states that the sphere is no longer emitting vapor when water is poured on it because it is now "off" or dead. A thermal camera is used to examine the sphere, reflecting the heat from the polishing. The number of scratches does not indicate the age of the sphere. Microscopic analysis of the cracks and scratches could determine the quality and homogeneity of the material.
UNAM Involvement and Video Analysis
The National Autonomous University of Mexico (UNAM) is involved in the investigation. Josue is studying the sphere videos to verify their authenticity. The videos show the sphere passing behind trees, discrediting CGI or AI manipulation. The sphere appears smooth and lacks detail in the videos. The sphere seems to be gyrating in the videos.
Authenticity and Practical Effects
Josue believes the shots in the videos are real and the object is present in the place. The sphere has reflexes and appears to be the same in different videos. Josue initially considered the possibility of the sphere hanging by a cable from a drone, but the distant shots make this unlikely. A 3D render of the sphere was created to understand how it might spin.
Sound Analysis and Doubts
The sound in the video of the person who rescued the sphere has been edited, with ambient sound repeating. The audio was likely modified to conceal the second person's voice and identity. The cuts in the video suggest that several clips were combined. Josue has doubts but estimates a 70-30 probability that the video is authentic. A shine on the sphere in the video might indicate a short circuit.
Fiber Optics Discovery
A professor from UNAM discovered optical fiber in the holes of the sphere. Chemical analysis revealed silicon dioxide with some dopant. The fiber is used for atmospheric studies. A black polymer found on the sphere degrades at 110°C. The optical fibers are sensors that record environmental conditions such as humidity and temperature.
Optical Fibers and Atmospheric Studies
The presence of optical fibers supports the theory that the sphere is used in the atmosphere. The optical fiber has a symmetrical structure encapsulated in a polymer. The fiber optics could function as cameras, transmitting and receiving signals. The National University will release an official report acknowledging the presence of optical fibers inside the sphere.
Historical Context and Excitement
In 1994, Philip Corso claimed that fiber optics were extracted from recovered craft and introduced into the U.S. industry. This discovery confirms that optical fibers have been used by other intelligences for hundreds of years. The team expresses excitement about the findings and shares them with the audience.
Equatorial Zone Analysis
The sphere is moved to the equatorial zone for further analysis. The team observes a high concentration of optical fibers in two points. The sphere is made of two distinct parts joined together, with each hemisphere melted separately. The hemispheres were merged when the material was in its molten state, creating a weld-like bond.
Fiber Optics Throughout the Sphere
Fiber optics are found where the joint slot is located, meaning there is fiber optic throughout the entire sphere. The sphere is full of sensors. The team plans to conduct a complete study of the sphere.
Thermal Camera and Electromagnetic Field Detector
The journalist records the sphere with a thermal camera and uses an electromagnetic field detector. He also plays audio frequencies to see if they generate any activity inside the sphere, but detects nothing. He acknowledges that NASA or a major government agency might have taken the sphere if not for Jaime Maussan's presence.
Final Thoughts and Replicability
The journalist relies on extraordinary, non-replicable elements to determine the authenticity of the sphere. The optical fiber inserted into the pores of the metal is particularly compelling. However, unlike the mummies, the sphere has only been under investigation for a few months. The skeptical side is that the sphere is replicable with current materials and technologies, although it would be difficult and costly. The journalist is ready to participate in an attempt to make the sphere fly.