I have always believed that teaching without continuous learning slowly becomes repetition. Long before online education became mainstream, I explored courses offered by universities across the world — not for certificates, but for clarity.
These courses shaped how I think, how I solve problems, and how I explain concepts to students. They strengthened first principles, encouraged interdisciplinary thinking, and reinforced one simple idea:
Learning is not a phase of life — it is a lifelong responsibility.
Introduction to Solar Systems
Developed a structured understanding of planetary systems, orbital mechanics,
and how observation and evidence shape astronomical models.
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From the Big Bang to Dark Energy
Built a conceptual framework for cosmology — understanding how mathematics,
theory, and observation together explain the evolution of the universe.
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Physics I: Classical Mechanics
Strengthened first-principle thinking by breaking complex motion into simple
laws, assumptions, and physical reasoning.
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Electricity & Magnetism
Deepened conceptual understanding of electric and magnetic fields, potentials,
and how invisible forces govern real-world systems.
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Genes and the Human Condition
Explored genetics beyond biology — connecting science with ethics, medicine,
technology, and societal impact.
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Linear Algebra – Foundations to Frontiers
Learned linear algebra through computational thinking. Implementing concepts
using Python made vectors, matrices, and transformations intuitive and enjoyable
to explore through code.
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Fundamentals of Neuroscience – Neurons & Networks
Gained insight into how biological networks process information, revealing
parallels between neural systems and physical models.
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Fundamentals of Neuroscience
Built foundational understanding of how neurons encode, transmit, and interpret
signals — strengthening interdisciplinary thinking.
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Solar Energy
Applied physics concepts to real-world energy systems, sustainability, and
photovoltaic technologies.
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Statistical Molecular Thermodynamics
Connected microscopic molecular behavior with macroscopic thermodynamic laws —
a powerful framework for teaching and reasoning.
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