ES0S03 - Physical and Earth Sciences Fundamentals 11 Aug 2021 - 31 Aug 2027 | Version 1

Associated Module Information

Module Code: ES0S03
Module Title: Physical and Earth Sciences Fundamentals
Faculty: Faculty of Computing, Engineering and Science
Faculty Group: Chemical and Environmental Sciences
Faculty Sub Group: Earth and Environmental Science
Module Leader: Sorcha Diskin
Module Team: Tracey May
First Intended Intake: SEP 2021 Final Year of Intake:
Date Closed:
Credit Value: 20 Credit Level: 3
Language: English
Percentage of Module Taught in Welsh: 0
Equivalent Module:
HECOS codes: 100394 - earth sciences
HECOS Code Weighting: 100

Document Version Information

Version 1
Valid From 11 Aug 2021
Valid To 31 Aug 2027

Module Aims

The module aims to give students the opportunity to explore various methods and necessary skills required for physical and earth scientific thinking, techniques and experimental design in an enquiry-based way.

Content Summary

Students are encouraged to explore correlational and experimental methods, the role of statistics, scientific argumentation and ethical working practices in relation to current physical and earth science topics as outlined below and reflected in news reports, recent academic publications and historical case studies. Problem-based learning and blended learning approaches will facilitate deep, experiential learning. Indicative content of the module includes:

Physical Science

· Units, measurement and errors. Atomic structure: atomic number, mass number and isotopes. Electronic structure of atoms. Stability of the nucleus. Radioactivity: alpha, beta and gamma - radiation. Hazards of radioactivity. Half life, exponential decay.· Heat and temperature, specific and latent heat. Kinetic theory. Gas laws and ideal gas equation. Graphical representation of the distribution of speeds of gas molecules at different temperatures. Vapour pressure and boiling point.· Light and spectroscopy: electromagnetic spectrum, absorption spectra and colour, Beer-Lambert law.· Conservation of energy. Enthalpy changes of reaction and changes of state. Standard molar enthalpy of formation, ΔHθ Hess's law:ΔHθ as a qualitative indication of the stability of a compound. Calculation of enthalpy changes from experimental data.· Factors affecting rate of reaction, obtaining and analysing rate data; rate equations; orders of reaction; concept of activation energy; the effect of temperature on reaction rates; catalysts as providers of faster rates.· Chemical equilibria: reversible reactions, dynamic equilibrium; equilibrium constants and their meaning.· The rock cycle: weathering, erosion and transport leading to the formation of sediments and different types of soil; the contribution of plate tectonics to the recycling of rocks.

Foundations of Earth Science

· Introduction to rocks, minerals and fossils· Using rocks and fossils to discover and understand the history of the Earth and life on Earth· Introduction to plate tectonics· Introduction to rocks and hydrocarbons· Introduction to rocks and water· Climates in earth history· Geology of other planets

Learning and Teaching Methods

Activity Type Hours
Seminar 60
Independent Study 70
Directed Study 60
Formative Assessment - Scheduled 5
Formative Assessment - Independent 5
Total Hours Selected 200

Learning Outcomes

# Learning Outcome
LO1 Understand the origins of both the physical and earth sciences, and demonstrate the ability to evaluate sources of evidence and scientific arguments and understand the requirements and procedures for working safely in laboratory and field work environments.
LO2 Understand the main principles underpinning the physical sciences and be able to demonstrate and comprehend the use and importance of quoting correct units and assessing experimental errors when making physical measurements
LO3 Identify and describe key geological processes and understand the role that geology plays in the search for and extraction of natural resources.

Module Requisites

N/A

Assessment Criteria

Assessment Category Assessment Type Description Duration Word Count Weight (%) Best of? Pass Mark
Asynchronous Assessment Presentation (Asynchronous) 1 Students plan, prepare and deliver a group presentation on a topic covered during the module 15 N/A 50 No 40
Asynchronous Assessment Report 1 Students will undertake a written report drawing on knowledge and material from the module course 0 2000 50 No 40

Assessment Matrix

Assessment Type Learning Outcomes
LO1 LO2 LO3
Presentation (Asynchronous) 1
Report 1

Reading List

Lewis, R. & Evans, W. (2018)Chemistry5th ed. London: Macmillan Foundation Series.

Grotzinger and Jordan (2020) Understanding Earth. 6th edition. London: Freeman.

Other literature, printed and on-line as directed.