FP046-15 Chemistry for the Biosciences
Introductory description
Knowledge of structure and function in biological systems underpinned by the chemical structures, reactions and interactions of the molecules involved. This module provides a background in chemistry for students wishing to study Life Science or Psychology at Undergraduate level. The material is illustrated in case studies relevant to these students.
Module aims
This module presents students with an introduction in fundamental ideas and concepts in chemistry for students wishing to study subjects involving molecular science. The module aims to provide students with an appreciation of the structure and function of molecules, principles of kinetics, pH and chemical analysis with the application of these to biological systems. In addition, skills aligned to the chemical sciences including numeracy, logical argument, research, referencing and the utilisation of modelling will be developed.
Outline syllabus
This is an indicative module outline only to give an indication of the sort of topics that may be covered. Actual sessions held may differ.
Student will cover:
Introduction: Chemical Basis of Living Systems
- Atomic structure and the Periodic table
- Energy of the Atom: Ionization Energies, Shells, Vacancy, orbitals and bonding
- Biomolecules: Electronic Structure and Shape (VESPER)
- Electronegativity and Intermolecular bonding
- The mole, calculating concentration and expressing biochemical results
Biomolecules
- Proteins, amino acids and making polymers
- Intermolecular bonding and solubility
- Carbon chemistry: functional groups and nomenclature
- Reactions and reaction mechanisms: including; aldehydes, ketones, carboxylic acids, alcohols
- Energetics, Hess's Law, Bond enthalpy, Q=mcΔT, ΔH=Q/n to determine ΔH
- The Equilibrium constant, calculating K
Balance and disruption in biological systems
- pH regulation of the stomach, Bronsted acids and bases
- Strong and weak acids, Ka and Kpa calculations
- Buffers: definitions, calculations and the role of antacids
Acid-base reactions: Drug production and detection
- Producing a Pharmaceutical Compound
- Drug chirality and Isomerism
- Nuclear Magnetic Resonance
- Mass spectrometry, Infrared spectroscopy and alcohol detection
- Redox reactions
Bioenergetics
- Electrochemical cells
- The chemistry of biological membranes
Learning outcomes
By the end of the module, students should be able to:
- Apply knowledge of organic reactions and their mechanisms
- Use chemical concepts to predict the reactivity and properties of key elements and compounds found in biological systems
- Manipulate and interpret numerical data and be able to identify factors that influence biological reactions
- Analyse acid-base phenomena and their effects to produce relevant conclusions
- Deduce different functional groups in biological macromolecules using Instrumental analysis
Indicative reading list
Chemistry for the life sciences (2009) Raul Sutton; Bernard Rockett; Peter Swindells
Chemistry for the biosciences : the essential concepts (2014) Jonathan Crowe, Tony Bradshaw
Interdisciplinary
This module links ideas and concepts delivered in the Biology and Psychology modules taken by students. The final assessment will require students to draw on and apply learning from across these modules.
Subject specific skills
Students will develop a core understanding of key chemical concepts, with a focus on the application of these fundamental principles within the bio-sciences.
Students will develop a familiarity with the language and terminology of chemistry.
Students will be encouraged to think creatively and critically and identify trends and patterns.
Transferable skills
Students will develop their research, organisational, time management, team working, IT and oral communication skills.
Students will develop effective communication for different target audience through written, oral and visual means.
Students will learn to select and manage information drawn from books, journals, and the internet.
Students will learn to make value judgements about their own work and the work of peers.
Study time
Type | Required |
---|---|
Seminars | 25 sessions of 2 hours (33%) |
Private study | 55 hours (37%) |
Assessment | 45 hours (30%) |
Total | 150 hours |
Private study description
To develop new knowledge and understanding for this module students should undertake activities such as reading in relation to the subject areas covered, critical analysis of data and articles, reflection, practice questions, group work and preparation for assignments.
Costs
No further costs have been identified for this module.
You must pass all assessment components to pass the module.
Assessment group A3
Weighting | Study time | Eligible for self-certification | |
---|---|---|---|
Biochemistry: Short answer questions | 60% | 27 hours | No |
A set of questions requiring students to demonstrate their knowledge and understanding of key concepts |
|||
Inquiry Exercise | 40% | 18 hours | Yes (extension) |
This assessment will required students to apply their knowledge to a inquiry-based learning exercise and produce a written report providing evidence for their conclusion. |
Feedback on assessment
Students will be provided with formative assessments that will give 'feed-forward' comments to support the assessments in both written and verbal formats. On summative assessment students will receive written 'feed-forward' comments through Tabula.
Courses
This module is Core for:
-
FIOE Warwick International Foundation Programme
- Year 1 of FP21 Warwick International Foundation Programme - Life Sciences
- Year 1 of FP22 Warwick International Foundation Programme - Psychology