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Partition Coefficients. Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : Learning Objective: We are learning to create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents. create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents https://np1.nearpod.com/sharePresentation.php?code=bac03b304663a282c7ddc7da15fc6d66-1&oc=user-created&utm_source=link I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : Starter: …min Video: … min Differentiated main activity : …m Self/ peer assessment: …min Exit card : …. min Teacher –Reflection: Using the given materials create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents. create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : Starter: …min Video: … min Differentiated main activity : …m Self/ peer assessment: …min Exit card : …. min Teacher –Reflection: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents Individually solve the given Worksheet. I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : Partition coefficients (often denoted as Kpc) have significant real-life applications in various fields, especially in chemistry, pharmacology, and environmental science. Here are a few key examples: 1. Drug Design and Pharmacokinetics. 2.Environmental Pollutants. 3. Solvent Extraction in Industrial Chemistry. 4. Cosmetic and Personal Care Products. 5. Agrochemicals. create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : In Pairs search and write a small paragraph about one of the following applications of KPC, then read it to your colleagues. create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
Grade:12 Week: 9 Chapter: 25 Topic: Equilibria LO : Tick to Chick create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents I can: state what is meant by the term partition coefficient, Kpc I can: calculate and use a partition coefficient for a system in which the solute is in the same physical state in the two solvents I can: understand the factors affecting the numerical value of a partition coefficient in terms of the polarities of the solute and the solvents used I can: create a model to explain partition coefficients (Kpc) and demonstrate how they apply to the distribution of solutes between two immiscible solvents
