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(TR) Mathematics, Professional Skills & Introduction to Laboratories - PHY00047I

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• Department: Physics
• Module co-ordinator: Dr. Emma Osborne
• Credit value: 20 credits
• Credit level: I
• Academic year of delivery: 2023-24
  • See module specification for other years: 2024-25

Module summary

N/A - transition module

Related modules

Prohibited Combinations: Mathematics, Professional Skills & Experimental Laboratories and Mathematics, Professional Skills & Computational Laboratories

Module will run

Occurrence	Teaching period
A	Semester 1 2023-24

Module aims

Mathematics:

Mathematics is a fundamental tool for the study of Physics. This mathematics part of this module aims to introduce the concepts of vector and scalar fields and how to apply calculus to these fields in order to describe their behaviour and dynamics. We also study Fourier series, which leads to the concept of the ‘Fourier transform’, both of which are powerful and ubiquitous concepts in physics.

Professional Skills:

Professional skills are essential to the modern physicist. The Professional Skills component of this module is aimed at building on previous translational and employability skills learned in Stage 1 to continue the development of career preparedness and enhancing recruitability. Emphasis will be placed on the design and development of application documents including CVs and cover letters, the use of online resources to find graduate roles, and recognition of the skills, knowledge and attributes gained to make informed career choices.

Laboratories:

The introductory laboratory course is aimed at building on the skills learned at school or college by developing the core experimental competencies required of a physicist. In addition, the experiments will support topics discussed in lectures, which will help to reinforce ideas presented in these modules. You will learn how to use equipment which plays a key role in a wide range of experiments

Module learning outcomes

Mathematics:

• Describe the rate at which scalar and vector fields change in an arbitrary direction and use this concept to calculate the flux of fields through and around regions of space

• Define a Fourier series of any periodic function and use it to derive the Fourier transform.

Professional Skills:

• Develop, reflect on, and critically evaluate key professional attributes sought after by graduate employers.

• Enhance your employability and self-awareness, and boost application skills through effective communication of information and ideas.

• Create and implement plans to achieve key career objectives, and identify ways to make professional use of others to achieve aims and desired outcomes.

• Identify, reflect on and critically evaluate key competencies and strengths, produce a CV and application letter aligned to a potential sector.

• Make effective use of databases to identify, select, and evaluate information to enable achievement of a desired outcome.

• Respond appropriately to peer expectations.

Laboratories:

• Demonstrate effective experimental practice, including the planning, execution, recording, appraisal and discussion of the data

• Identify, assess, analyse, and decrease experimental uncertainties, applying the properties of the normal distributions where appropriate

• Write a scientific report using the accepted structure and style

Module content

Mathematics:

• Scalar and Vector Fields: Rate of change of a scalar field, conservative fields, work done by moving through a vector field, flux of a vector field, divergence theorem, curl of a vector field, Stokes’ theorem, Laplace operator, div, grad and curl in different coordinate systems and surface integrals of vector fields

• Fourier Series: Fourier theorem and Fourier series, boundary conditions, Fourier coefficients, waveforms, Fourier transforms, reciprocal broadening.

Professional Skills:

Professional Skills: Application writing, CVs, cover letters, application forms, search engines, online resources, recognition and reflection of professional skills, peer-assessment, team activities.

Laboratory:

• Methods for plotting experimental data

• Properties of Normal distributions and the standard error

• Identification, analysis and minimisation of experimental uncertainties

• Experimental activities based around provided laboratory scripts

• Maintenance of a laboratory notebook

• Scientific report writing

Of the 50% weighting for the laboratory component, 30% is attributed to the laboratory notebooks and 20% to the formal report.

Assessment

Task	Length	% of module mark
Closed/in-person Exam (Centrally scheduled) (TR) Mathematics, Professional Skills & Introduction to Laboratories	1 hours	25
Essay/coursework Laboratory Notebooks and Formal Report	N/A	50
Essay/coursework Maths Practice Questions	N/A	10
Essay/coursework Professional Skills Assignments	N/A	15

Special assessment rules

Other

Reassessment

Task	Length	% of module mark
Closed/in-person Exam (Centrally scheduled) (TR) Mathematics, Professional Skills & Introduction to Laboratories	1 hours	25
Essay/coursework Laboratory Notebooks and Formal Report	N/A	50
Essay/coursework Professional Skills Assignments	N/A	15

Module feedback

'Feedback’ at a university level can be understood as any part of the learning process which is designed to guide your progress through your degree programme. We aim to help you reflect on your own learning and help you feel more clear about your progress through clarifying what is expected of you in both formative and summative assessments.

A comprehensive guide to feedback and to forms of feedback is available in the Guide to Assessment Standards, Marking and Feedback. This can be found at:

https://www.york.ac.uk/students/studying/assessment-and-examination/guide-to-assessment/

The School of Physics, Engineering & Technology aims to provide some form of feedback on all formative and summative assessments that are carried out during the degree programme. In general, feedback on any written work/assignments undertaken will be sufficient so as to indicate the nature of the changes needed in order to improve the work. Students are provided with their examination results within 25 working days of the end of any given examination period. The School will also endeavour to return all coursework feedback within 25 working days of the submission deadline. The School would normally expect to adhere to the times given, however, it is possible that exceptional circumstances may delay feedback. The School will endeavour to keep such delays to a minimum. Please note that any marks released are subject to ratification by the Board of Examiners and Senate. Meetings at the start/end of each semester provide you with an opportunity to discuss and reflect with your supervisor on your overall performance to date.

Our policy on how you receive feedback for formative and summative purposes is contained in our Physics at York Taught Student Handbook.

Indicative reading

Mathematics:

1. Vector Calculus Book by P. C. Matthews

2. Mathematical Methods in the Physical Sciences Textbook by Mary L. Boas

3. A Student's Guide to Fourier Transforms: With Applications in Physics and Engineering Book.

Professional Skills:

John M. Lannon & Laura J. Gurak: Technical Communication, Global Edition. 15th Ed 2021 (Pearson)

Laboratories:

Lab scripts - available on the VLE