CH923-10 Statistics for Data Analysis
Introductory description
The aim of this module is to give students a basic understanding of the statistical methods appropriate to data analysis in analytical science, and to provide guidance on some statistical tools for more advanced study. Topics include: basic probability; error analysis and calibration; summarising data and testing simple hypotheses; statistical computing (software and practice, including simple graphics); experimental design and analysis of variance; sampling methods and quality control; simple analysis of multivariate data. Each session will combine lecture and data analysis workshop. At the end of the course the student should be able to appreciate the added value that statistical analysis can bring to research to perform basic statistical analyses of simple data sets using statistical software to design simple experiments.
Module aims
To equip students with the skills needed to perform basic statistical analyses themselves and sufficient knowledge to understand more advanced techniques that they might meet in the scientific literature.
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.
The role of statistics within science and the nature of measurement
Summarising data
Probability and distributions
Testing hypotheses
ANOVA and linear models
Statistical computing
Designing experiments
A selection of advanced material will be presented to the students from the list below, the aim of which is to give students an entry level understanding of the advanced statistical topics that they might meet during their research careers.
Advanced material:
The analysis of designed experiments
Statistical modelling and model choice
Analyses for non-Normal data
Markov chains and stochastic processes
Multivariate methods and clustering
Bootstrap methodology
Introduction to Bayesian statistics and modern computational statistics.
Learning outcomes
By the end of the module, students should be able to:
- (a) Subject knowledge and understandingBe familiar with key probability distributions.Be familiar with commonly used statistical methods.
- (b) Key SkillsUse statistical methods to determine data quality and extract key quantities of interest.Perform parameter estimation. Able to formulate and implement an appropriate hypothesis test to determine statistical significance.Use appropriate statistical software.
- (c) Cognitive SkillsUnderstand how probability can be used to describe variation in experimental data.Understand how hypothesis testing can be used to quantify the amount of evidence in favour of a scientific hypothesis.
- (d) Subject-Specific/Professional SkillsKnow how to analyse data from a range of techniques.Summarise data, implement parameter estimation and appropriate statistical tests.Follow discussion of more advanced statistical techniques in the scientific literature.
Subject specific skills
(a) Subject knowledge and understanding
Be familiar with key probability distributions.
Be familiar with commonly used statistical methods.
(b) Key Skills
Use statistical methods to determine data quality and extract key quantities of interest.
Perform parameter estimation.
Able to formulate and implement an appropriate hypothesis test to determine statistical significance.
Use appropriate statistical software.
(c) Cognitive Skills
Understand how probability can be used to describe variation in experimental data.
Understand how hypothesis testing can be used to quantify the amount of evidence in favour of a scientific hypothesis.
(d) Subject-Specific/Professional Skills
Know how to analyse data from a range of techniques.
Summarise data, implement parameter estimation and appropriate statistical tests.
Follow discussion of more advanced statistical techniques in the scientific literature.
Transferable skills
TBC
Study time
| Type | Required |
|---|---|
| Lectures | 10 sessions of 3 hours (30%) |
| Seminars | 10 sessions of 2 hours 30 minutes (25%) |
| Practical classes | 2 sessions of 3 hours (6%) |
| Private study | 39 hours (39%) |
| Total | 100 hours |
Private study description
No private study requirements defined for this module.
Costs
No further costs have been identified for this module.
You do not need to pass all assessment components to pass the module.
Students can register for this module without taking any assessment.
Assessment group A1
| Weighting | Study time | Eligible for self-certification | |
|---|---|---|---|
Assessment component |
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| Assessed work | 50% | Yes (extension) | |
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Final assessment |
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Reassessment component is the same |
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Assessment component |
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| Class Test | 50% | No | |
Reassessment component is the same |
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Feedback on assessment
Written work will be annotated and returned to students. An hour long assessment feedback session will be held to give students feedback on the class test.
Courses
This module is Core for:
- Year 1 of TCHA-F1PL Postgraduate Taught Molecular Analytical Science
This module is Core optional for:
-
TMDA-B91Z Postgraduate Taught Interdisciplinary Biomedical Research
- Year 1 of B91Z Interdisciplinary Biomedical Research
- Year 1 of B91Z Interdisciplinary Biomedical Research
This module is Optional for:
- Year 1 of TCHA-F1PB MSc in Chemistry with Scientific Writing
-
TCHA-F1PE Postgraduate Taught Scientific Research and Communication
- Year 1 of F1PE Scientific Research and Communication
- Year 2 of F1PE Scientific Research and Communication
- Year 1 of TBSA-C1P9 Postgraduate Taught Systems Biology
This module is Core option list A for:
- Year 2 of TCHA-F1PY Postgraduate Taught Analytical Science and Instrumentation
This module is Core option list B for:
- Year 1 of TCHA-F1PY Postgraduate Taught Analytical Science and Instrumentation
This module is Option list A for:
- Year 1 of RCHA-F1P9 Postgraduate Research Analytical Science
- Year 2 of TBSA-C1P9 Postgraduate Taught Systems Biology
This module is Option list B for:
- Year 1 of TBSA-C1P9 Postgraduate Taught Systems Biology