This course aims to:1) Understand the basics and laws of thermodynamics and study the thermodynamics of electrolytic and non-electrolytic solutions, in addition to identifying the equations of state for real gases.2) Learn the basics of statistical thermodynamics.3) Studying and knowing the theories of quantum mechanics, including postulates, and how to deal with influences and their applications in explaining some phenomena that classical mechanics failed to explain.4) Studying the non-time-dependent Schrödinger equation and its applications, in addition to angular momentum and its applications.
Intended learning outcomes
a. Knowledge & understandingA.1 Learn the basics and laws of thermodynamics, including the thermodynamics of electrolytic and non-electrolytic solutions.A.2 Familiarity with the basics of statistical thermodynamics.A.3 That the student recognizes the theoretical basis on which the theories of quantum mechanics are built and the possibility of applying them in explaining some phenomena that classical mechanics failed to explain.A.4 Identify the assumptions on which the non-time dependent Schrödinger equation is built and know the angular moment and its applications.B. Mental skillsB.1 The ability to apply the mathematical relations of thermodynamics and the equation of state to real gases.B.2 The ability to deal with some laws of statistical thermodynamics.B.3 Understand how to apply the theories and laws of quantum mechanics in explaining some phenomena that classical mechanics failed to explain.B.4 The ability to derive the time-independent Schrödinger equation and deal with the laws of angular momentum.T. Practical & professional skillsC.1 The ability to apply the mathematical relations of thermodynamics.C.2 The ability to apply the laws of thermodynamics statistics and the ability to interpret results related to them.C.3 The ability to apply postulates and deal with influences when analyzing issues related to quantum mechanics.C.4 The student applies Schrödinger's equation and quantum mechanics to solve problems related to angular moment.w. Generic and transferable skillsD.1 Interpretation of the results obtained from the problems.D.2 Refer to specialized internet sites and benefit from them in clarification and explanation as muchthe appropriate.D.3 Choosing the appropriate equations to solve quantum chemistry problems.
Teaching and learning methods
• Theoretical lectures• Solve problems such as examples and household problems.• Discussing topics related to quantum chemistry and thermodynamics and writing reports in this regard.
