There will be laboratory sessions with eight experiments relating to both general skills and to the syllabus of the Physics lecture modules PH023, PH025 and PH026.
There will be lecture tutorials on:
Introduction to the module
Analysing experimental uncertainties
Writing reports on laboratory work
Total contact hours: 30
Private study hours: 120
Total study hours: 150
This is not available as a wild module.
Assignment (3 hour lab session) – 10%
Lab Report 1 – 10%
Lab Report 2 – 15%
Lab Report 3 – 15%
Lab Report 4 – 15%
Lab Report 5 – 15%
Lab Report 6 – 20%
Core texts:
New Understanding Physics for Advanced Level 4th edition, by J. Breithaupt. (Copies of the 4th edition are in the library, + copies of earlier editions)
L. Kirkup, Experimental Methods John Wiley & Sons, Australia, 1994
Supplementary texts:
Physics by J. Breithaupt (Copies of 2003 edition in the library)
J. R. Taylor, An Introduction to Error Analysis (Second Edition), University Science Books, US. 1997
J. Topping, Errors of Observation and Their Treatment (Third Edition), Chapman and Hall, London, 1962
See the library reading list for this module (Canterbury)
The intended subject specific learning outcomes. On successfully completing the module students will be able to:
Have:
Knowledge and understanding of physical laws and principles, and their application to diverse areas of physics (this will include laws of motion, electromagnetism, wave phenomena and the properties of matter), with modules covering the necessary mathematics.
An ability to identify relevant principles and laws when dealing with problems, and to make approximations necessary to obtain solutions.
An ability to solve problems in physics using appropriate mathematical tools.
An ability to present and interpret information graphically.
An ability to communicate scientific information, in particular to produce clear and accurate scientific reports.
A familiarity with laboratory apparatus and techniques, including relevant aspects of Health & Safety.
The systematic and reliable recording of experimental data.
An ability to make use of appropriate texts, or other learning resources as part of managing their own learning.
The intended generic learning outcomes. On successfully completing the module students will be able to:
Have:
Problem-solving skills, an ability to formulate problems in precise terms and to identify key issues, and the confidence to try different approaches in order to make progress on challenging problems. Numeracy is subsumed within this area.
Investigative skills in the context of independent investigation including the use of textbooks and other available literature, and the interaction with colleagues to extract important information.
Communication skills in the area of dealing with surprising ideas and difficult concepts, including listening carefully, reading demanding texts and presenting complex information in a clear and concise manner.
Analytical skills – associated with the need to pay attention to detail and to develop an ability to manipulate precise and intricate ideas, to construct logical arguments and to use technical language correctly.
Personal skills – the ability to work independently, to use initiative, to organise oneself to meet deadlines and to interact constructively with other people.
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