CY4081 - Key Principles in Chemistry (2024/25)
Module specification | Module approved to run in 2024/25 | ||||||||||||
Module title | Key Principles in Chemistry | ||||||||||||
Module level | Certificate (04) | ||||||||||||
Credit rating for module | 15 | ||||||||||||
School | School of Human Sciences | ||||||||||||
Total study hours | 150 | ||||||||||||
|
|||||||||||||
Assessment components |
|
||||||||||||
Running in 2024/25(Please note that module timeslots are subject to change) |
|
Module summary
This module covers inorganic and physical chemistry needed for students studying Chemical and Pharmaceutical Sciences. Students will undertake an assessed practical and practice problem solving skills based on the material taught.
The aim of this module is to ensure you will develop key skills and knowledge in:
1. inorganic chemistry, including the p-block, transition metal chemistry and magnetism.
2. essential physical chemistry topics of thermodynamics and electrochemistry
This module aims to provide students with the qualities and transferable skills necessary for employment requiring the exercise of some personal responsibility and enhancing analytical skills
Prior learning requirements
None
Available for Study Abroad? YES
Syllabus
Ionisation energies and trends in the periodic table, illustrated using the chemistry of the p block. The chemistry of the d-block. Coordination and ligands, splitting of the d-orbitals in octahedral and tetrahedral fields, CFSE and magnetism. High and low-spin complexes. Trends in oxidation state across the first row of the d-block. Applications of inorganic chemistry in medicine, including metallodrugs and imaging agents. (1, 2, 5)
Thermodynamics. Enthalpy, entropy, and Gibbs Free Energy. The first law of thermodynamics. Constant volume and constant pressure systems. Introductory electrochemistry. Half equations and electrodes. Standard electrode potentials. (3, 4)
Balance of independent study and scheduled teaching activity
Teaching and learning sessions include lectures/tutorials + mini-tests, (31 h) and practicals (4 h) with feedback where appropriate.
Tutorials have an emphasis on problem solving based on pre-set work with student participation and group activities. Students will be expected to prepare in advance for tutorials to develop problem-solving skills using worksheets provided. Feedback from these sessions facilitates the learning process. Lectures are used to set context and to deliver subject material, and are linked to tutorials, mini-tests and practicals. Students will be expected to reflect on the learning experience and develop their own understanding of the material.
Learning outcomes
On successful completion of this module the student will be able to:
1. have fundamental understanding of the properties of the elements of groups 2, 17 and the d-block.
2. determine the crystal field stabilisation energy in octahedral and tetrahedral complexes and relate this to magnetism.
3. describe the properties of matter on the macroscopic and atomic scales.
4. comprehend redox chemistry and electrochemistry.
5. undertake routine practical exercises safely and apply appropriate analytical techniques to the data obtained.
Bibliography
https://rl.talis.com/3/londonmet/lists/B2C33D3D-4C00-ECEF-EA1F-BA045BCF6704.html?lang=en-US&login=1