Module Details

The information contained in this module specification was correct at the time of publication but may be subject to change, either during the session because of unforeseen circumstances, or following review of the module at the end of the session. Queries about the module should be directed to the member of staff with responsibility for the module.
Title Key Skills for Chemists 2A
Code CHEM281
Coordinator Dr GR Darling
Chemistry
Darling@liverpool.ac.uk
Year CATS Level Semester CATS Value
Session 2023-24 Level 5 FHEQ First Semester 7.5

Pre-requisites before taking this module (or general academic requirements):

 

Aims

1. To further develop the quantitative skills of a student, through more advanced skills in the application of mathematics, physics and information technology applicable to the second year of an undergraduate degree in chemistry.
2. To introduce students to the use of Molecular Modelling in Chemistry
3. To further develop a student's general transferable skills in oral communication, presentation and team working.


Learning Outcomes

(LO1) The overarching learning outcome is that students will gain the necessary key skills to perform well in their chemistry degree programmes.

(LO2) Quantitative key skills: By the end of the module a successful student will have improved their ability to:
* perform basic calculus (integral and differential) as applied to kinetics, thermodynamics and quantum mechanics
* use partial differentiation in general problems and to categorise stationary points in functions of more than one variable
* apply algebraic manipulation in kinetics, thermodynamics and quantum mechanics
* apply the algebra of complex numbers in quantum mechanics problems
* use basic matrix vector algebra

(LO3) Molecular Modelling skills. By the end of this module, a successful student will have gained:
* a qualitative understanding of empirical models, knowing which model is suitable for a particular type of problem.
* Some experience of modelling intermolecular forces and complexes.

(LO4) General key skills: By the end of this module, a successful student will have developed a range of new transferable and employability skills applicable to further study and wider employment.

(S1) Problem solving skills

(S2) Numeracy

(S3) Teamwork

(S4) IT skills

(S5) Communication skills

(S6) Students will have further developed their chemistry-related cognitive abilities and skills as highlighted in the QAA Chemistry benchmark statement including (i) the ability to apply such knowledge and understanding to the solution of qualitative and quantitative problems ; (ii) skills in the practical applications of theory using computer software and models; (iii) skills in communicating scientific material and arguments; (iv) information technology and data-processing skills, relating to chemical information and data.

(S7) Students will have generic skills developed in the context of chemistry that are of a general nature and applicable in many other contexts as highlighted in the QAA Chemistry benchmark statement including (i)communication skills (written and oral); (ii) problem-solving skills, relating to qualitative and quantitative information; (iii) numeracy and mathematical skills; (iv) information retrieval skills; (v) ICT skills; (vi) interpersonal skills, relating to the ability to interact with other people and to engage in team-working; (viii) time management and organisational skills.


Teaching and Learning Strategies

This module aims to follow on from the approach used in the Year One module CHEM180 Key Skills for Chemists 1, with similar teaching and learning strategies, but providing opportunities to develop the key skills of the students to a higher level.

Extensive use of Canvas, email and on-line information will be made, with students expected to use canvas to view announcements, presentations and obtain
information and tutorial tasks and to submit assessments.

General Key Skills (GKS)
1 x 1 hr tutorial given by teaching staff in the Chemistry Department and Careers and Employability, with groups of approximately 7-8 students.
2 x 1 hr lectures supporting mini portfolio, shortlisting and digital media activities.
*Lectures: 2 hr
*Tutorials: 1 hr

Quantitative Key Skills (QKS)
6 x 3 hr workshops, using computers where necessary. In most cases, these will start with an introductory lecture.
Due to differing levels of ability and experience in m athematics, there will be additional more testing, optional problems worth 20% of the Maths workshop mark.
*Workshops + Lectures: 18 hr

Molecular Modelling Key Skills (MMKS)
2 x 1 hr recorded lectures to introduce the concepts.
2 x 3 hr workshops (optional) to help with the 4 assignments.
*Lectures (online): 2 hr
*Workshops: 6 hr (assuming 3 hr per workshop)

In total:
*Lectures (2 online): 4 hr
*Tutorials: 1 hr
*Workshops (maths workshops include lecture at start): 24 hr


Syllabus

 

General Key Skills (GKS)
• Engage with and produce a mini-portfolio related to shortlisting activities and digital media.

Quantitative Key Skills (QKS)
This section of the module will be the responsibility of Dr George Darling who will ensure that activities build on the quantitative skills developed in Year 1. These skills will involve a selection from the following topics designed specifically to match the requirements of the semester one module CHEM261 Physical Chemistry IIA:
•Revision of re-arrangement algebra, basic functions, exponents and logarithms, the exponential function, trigonometric functions
•Revision of basic calculus, rules of differentiation – chain rule etc. - basic integration
•Calculus used in kinetics, thermodynamics and quantum mechanics
•Partial differentiation
•Complex numbers and their use in quantum mechanics
•Basic matrix-vector algebra
•Eigen vectors, eigenvalues, the matrix determinant and matrix inverses

Molecular Modelling Key Skills (MMKS)
This section will be the responsibility of Dr. Richard Bonar Law. The lectures and workshops will cover:
•Introduction: summary of techniques covered in the course, and sources for further reading.
•Molecular Mechanics using force-fields
•Modelling non-covalent interactions: van der Waals, electrostatics, aromatic stacking, hydrogen bonding, cooperativity.


Recommended Texts

Reading lists are managed at readinglists.liverpool.ac.uk. Click here to access the reading lists for this module.

Teaching Schedule

  Lectures Seminars Tutorials Lab Practicals Fieldwork Placement Other TOTAL
Study Hours 4

  2

    20

26
Timetable (if known)              
Private Study 49
TOTAL HOURS 75

Assessment

EXAM Duration Timing
(Semester)
% of
final
mark
Resit/resubmission
opportunity
Penalty for late
submission
Notes
             
CONTINUOUS Duration Timing
(Semester)
% of
final
mark
Resit/resubmission
opportunity
Penalty for late
submission
Notes
QKS workshop exercises submitted during in-person classes Exemptions: electronic submission 3.2b, mix anonymous marking 4.3e    60       
MMKS, modelling assignment problems    30       
GKS Portfolio Exemptions: anonymous marking 4.3f    10