How Can We Derive The Nernst Equation? - Science Through Time

How Can We Derive The Nernst Equation? In this informative video, we will discuss the Nernst Equation, a fundamental concept in electrochemistry that illustrates the relationship between electrode potential and the concentrations of chemical species. We will break down the derivation of this important equation, starting with Gibbs free energy and its connection to electrical work in electrochemical cells. You will learn how standard and non-standard conditions affect Gibbs free energy and how to relate it to the electrode potential. We will also simplify the Nernst Equation for practical applications, particularly under standard temperature conditions. This simplified form is widely used in electrochemistry to calculate cell potentials, making it essential for understanding various electrochemical systems, including batteries and sensors. Furthermore, we will touch on the historical significance of Walther Nernst's work and how it bridged the gap between thermodynamics and electrochemical phenomena. Join us as we uncover the importance of the Nernst Equation in the realm of science and its applications in everyday life. Don't forget to subscribe to our channel for more engaging content on the history of science and its impact on modern technology. ⬇️ Subscribe to our channel for more valuable insights. 🔗Subscribe: https://www.youtube.com/@Science-Thro... #NernstEquation #Electrochemistry #GibbsFreeEnergy #ChemicalReactions #CellPotential #PhysicalChemistry #WaltherNernst #ElectrodePotential #RedoxReactions #Thermodynamics #Batteries #FuelCells #Sensors #ScienceEducation #ChemistryExplained About Us: Welcome to Science Through Time, where we embark on an exciting journey through the fascinating world of science! Our channel is dedicated to exploring the incredible milestones that have shaped scientific discovery throughout history. From groundbreaking experiments to revolutionary theories, we delve into the stories behind the great minds and pivotal moments that have defined our understanding of the universe.