Unlocking the Universe's Secrets
Prof. Arbab Ibrahim Arbab's Groundbreaking Exoplanet Equations
A New Frontier in Exoplanet Science
Professor Arbab Ibrahim Arbab's revolutionary research has unveiled a new understanding of exoplanetary systems. His innovative equations provide a powerful tool for astronomers to analyze and predict the behavior of planets orbiting distant stars.
By merging gravitomagnetic theory with Kepler's laws, Prof. Arbab's work offers a more comprehensive framework for studying these celestial bodies, shedding light on their formation, evolution, and potential for harboring life.
Explore the EquationsKey Contributions & Equations
Beyond Kepler's Laws
Prof. Arbab's research introduces an additional law that complements Kepler's third law. This groundbreaking addition considers the energy dissipation of Earth-like exoplanets, revealing a remarkable similarity to the Earth-Sun system.
By delving into the realm of gravitomagnetic phenomena, this new law accounts for factors like planet spin, orbital precession, and light deflection, offering a deeper understanding of planetary dynamics.
Tidal Dissipation & Energy
Prof. Arbab's equations illuminate the intricate relationship between energy dissipated by tides and the total energy of interacting masses. This insight is crucial in understanding the long-term evolution of exoplanetary systems.
His work also explores how energy is attributed to the spin-orbit interaction of masses in elliptical orbits, furthering our knowledge of gravitomagnetism's role in shaping planetary behavior.
Mathematical Foundations
Equation for the curvature energy
Equation for the power of a moving planet due to gravitomagnetism
Equation for the rate of orbit decay in a system
Equation for the final collapse time of a system