Akademik Dersler - İçerik

will be able to interpret the chemical reaction rates and orders.
EN: Uses the terminology of chemical reaction rates.
EN: Applies several simple rate laws and solve a variety of problems related to these solutions.
EN: Applies experimental techniques to the determination of rate laws and rate constants.
will be able to analyze the kinetics of complex reactions.
EN: EN: Relates the change in intermediate concentration over time in consecutive reaction.
EN: Describes the initiation, propagation, branching, and termination steps of chain reactions.
EN: Applies the steady-state approximation and pre-equilibrium approximation to complex mechanisms.
Explains explosion limits in chain reactions.
will be able to explain the factors that affect reaction rate and the collision theory.
Explains the effect of temperature, concentration, pressure, and surface area on reaction rate with their physical foundations.
Calculates the activation energy using the Arrhenius equation and interprets the effect of temperature on the rate constant.
Explains collision number, steric factor, and activation energy within the framework of collision theory.
EN: Evaluates the results obtained from collision theory.
EN: Explains the relationship between activation enthalpy, entropy, and Gibbs energy in the activated complex theory.
will be able to distinguish energy and energy distribution from a statistical mechanics perspective.
1. Explains the population distribution of molecules among energy levels (vibrational, rotational, translational) using the Boltzmann distribution law.
2. Relates the threshold energy required for molecular activation to the density of states and partition function in statistical mechanics.
3. Interprets that the efficiency of intermolecular energy transfer depends on energy level matching (resonance) and statistical probabilities.
4. Quantitatively explains the effect of temperature on the fraction of activated molecules in the context of Maxwell-Boltzmann speed and energy distributions.
Will be able to recognize the factors affecting the rates of reactions in solution.
Test kinetics experimeriments that give molecular information.