Certain things only operate one way and not the other. We clean our rooms once and then they become filthy again in no time. The law can only declare that if the process occurs, there will always be an energy balance. The first law does not explain how a metallic bar of uniform temperature may grow warmer at one end and cooler at the other.
While the first law of thermodynamics provides information on the quantity of energy transferred in a process, it does not provide any information about the direction of energy transfer or the quality of energy transferred. The first rule of thermodynamics says that the universe’s energy stays constant, even though energy may be transferred across systems and environments but not generated or destroyed. The direction of heat transmission and the efficiency of heat engines are constrained by the second law of thermodynamics. Variation in Acceleration due to Gravity.General and Middle Terms - Binomial Theorem - Class 11 Maths.Average and Instantaneous Rate of Change.Factors affecting Acceleration due to Gravity.Class 11 NCERT Solutions - Chapter 7 Permutations And Combinations - Exercise 7.1.Class 11 NCERT Solutions - Chapter 3 Trigonometric Function - Exercise 3.1.What is the Difference between Interactive and Script Mode in Python Programming?.Difference Between Mean, Median, and Mode with Examples.ISRO CS Syllabus for Scientist/Engineer Exam.ISRO CS Original Papers and Official Keys.GATE CS Original Papers and Official Keys.Mainardi, Recent history of fractional calculus. Gordon and Breach Science Publishers, Switzerland (1993).
Marichev, Fractional Integrals and Derivatives: Theory and Applications. Rubin, Hyperbolic heat conduction and the second law. Podlubny, Fractional Differential Equations.
Vázquez, An interpolation between the wave and diffusion equations through the fractional evolution equations Dirac like. Tampieri, A generalized Fick’s law to describe non-local transport processes. Nunziato, On heat conduction in materials with memory. Nonnemacher, Space- and time-fractional diffusion and wave equations, fractional Fokker-Planck equations, and physical motivation. Klafter, The random walk’s guide to anomalous diffusion: A fractional dynamics approach. Pagnini, The fundamental solution of the space-time fractional diffusion equation. Velasco, Fractional models, non-locality and complex systems. Trujillo, Theory and Applications of Fractional Differential Equations. Vázquez, On the solution of fractional evolution equations.
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