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... a "Scientist" still in training with solid experience in Semiconductor Physics, Computational Physics and General Relativity. With a strong focus on Black Hole research, I am involved in projects that investigate the geometry and properties of these extreme cosmic objects. My work encompasses theoretical and computational analysis, using sophisticated models to better understand the behavior of black holes and their interactions with space-time. Through advanced simulations and calculations, I seek to contribute to the advancement of knowledge in fundamental areas of physics, while continuing to explore new frontiers in the study of astrophysical phenomena.
Born in the capital of Piauí, eclectic, adventurous, I have always sought new experiences to enrich my life and broaden my horizons. Since I was young, I have been known for being a curious person with an extreme desire to explore the world of technology and science.
Between trips, I find time for my hobbies, which range from diving into artistic and intellectual projects to practicing extremely advanced calculations, or almost so. This passion for life and discovery shaped my personality, making me a capable person for the development of a society.
Over time, my name became synonymous with someone who lives intensely, who constantly seeks new things and who turns every challenge into an opportunity to grow.
Projects
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Simulations of phenomena that predict the behavior of complex systems. For example, Simulation of the geometry of a regular black hole.
Electronic Circuits, Oscillations, Chaotic Behavior, Einstein Equations with Nonlinear Terms.
Experiments involving Biophysics, Physical Chemistry and Electronics. Such as Potential in a membrane, Electrochemistry, Electrophoresis.
Automation techniques with microcontrollers enable the customization of specific functions and the integration of diverse hardware, facilitating more precise control and automation.
Software development for computers and mainframes. This includes writing code, debugging errors, optimizing performance, and ensuring that software adapts and evolves as needed.
Development of websites for the internet and intranet. This includes Front-End and Back-End development, Databases, API Integration, Security, Optimization, Maintenance.
It is an undergraduate course that trains professionals with in-depth knowledge of the fundamental principles and theories of physics. Physics graduates are prepared to investigate and understand natural phenomena, develop new technologies and contribute to scientific research. The course offers solid training in theory and practice, preparing graduates to work in various fields of science and technology, as well as to pursue advanced studies in physics or related areas. Expertise: General Relativity
He is a professional qualified to work with electronic systems and their applications. The course covers subjects such as the fundamentals of electricity, digital and analog circuits, microcontrollers, instrumentation and automation. The professional can work in different areas, such as industry, telecommunications, building maintenance, and even in research and technological development sectors. Expertise: Hardware Reverse Engineering
He is a professional specialized in various areas of information technology and technical support. He is qualified to deal with computer systems and networks, offering support, maintenance and development of technological solutions. Expertise: Programming Language
Study on the geodesic structure of a regular black hole
Ionization process of hydrogen isotopes in TOKAMAK's magnetic confinement.
Development and Improvement of a Medium Range Radio Frequency Transmitter.
Traffic Management, Physical and Virtual Security in Data Centers. According to the Piauí Information Technology Agency Data Center.
Exhibition of the first Robotics project: Robtins.
Quantum mechanics is the branch of physics that studies the behavior of particles on very small scales, such as atoms and subatomics. She presents fundamental concepts such as particle-wave duality, Heisenberg uncertainty principle and quantum entanglement. Quantum mechanics has not only revolutionized our understanding of matter and energy, but is also the basis for many modern technologies, such as transistors and lasers.
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Developed by Albert Einstein, the theory of general relativity describes gravitation as a curvature of space-time caused by the presence of mass and energy. This theory radically altered the understanding of gravitation, replacing the Newtonian view. General relativity predicts phenomena such as black holes and gravitational waves, which have been confirmed by experiments and observations.
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Developed by James Clerk Maxwell, electromagnetic wave theory describes how electric and magnetic fields interact and propagate through space like waves. Maxwell's equations show that these waves travel at the speed of light and include a wide range of frequencies and wavelengths. The theory unified electricity and magnetism into a single theory.
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Particle physics, or high energy physics, investigates the fundamental particles that make up matter and the fundamental forces that govern their interactions. The Standard Model of particle physics is a well-established theory that describes particles such as quarks and leptons and mediating forces such as the Higgs boson.
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Chaos theory applies to dynamical systems that are nonlinear, meaning their equations of motion are not proportional. These systems can include everything from climate and population dynamics to electronic circuits and economic models. Nonlinearity is crucial because it introduces complexity into the system's behavior.
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Semiconductors have a band structure that includes the valence band and the conduction band. The valence band is occupied by electrons that are bonded to atoms, while the conduction band is where electrons can move freely through the material. Bandgap energy is the energy difference between the valence band and the conduction band. Semiconductors have a bandgap smaller than that of insulators and larger than that of conductors.
×"The knowledge we gain from experience is always fallible and can be revised in light of new evidence. Thus, scientific theories can never be proven, only disproved. The process of science is a continuous cycle of conjecture and refutation."
"Imagination is more important than knowledge. For knowledge is limited, whereas imagination embraces the entire world, stimulating progress, giving birth to evolution."