- UCAS course code
- F345
- UCAS institution code
- M20
Bachelor of Science (BSc)
BSc Physics with Theoretical Physics
- Typical A-level offer: A*A*A including specific subjects
- Typical contextual A-level offer: A*AA including specific subjects
- Refugee/care-experienced offer: AAA including specific subjects
- Typical International Baccalaureate offer: 38 points overall with 7,7,6 at HL, including specific requirements
Course unit details:
Year 1 Lab Work (One Semester)
Unit code | PHYS10280 |
---|---|
Credit rating | 10 |
Unit level | Level 1 |
Teaching period(s) | Semester 1 |
Available as a free choice unit? | No |
Overview
Year 1 Lab Work (One Semester)
Aims
Computing and Data Analysis:
Special Topics in Physics:
1. To promote awareness of selected topics at the forefront of modern-day research in physics.
2. To introduce and develop group-working skills.
3. To enhance writing and written presentation skills.
4. To develop skills in assessing the quality of one’s own and others’ work.
Circuits
To ensure that students can competently use an oscilloscope and to foster an understanding of the way electrical signals are shaped by passive circuit elements.
Learning outcomes
Computing and Data Analysis:
On completion successful students will be able to:
1. Use python commands and scripts to manipulate and present experimental data in the form of graphs and tables.
2. Estimate the precision of experimental results, from an understanding of the experimental procedure and from a statistical analysis of repeated measurements.
3. Calculate the uncertainty in quantities derived from experimental results of specified precision.
4. Round numerical values and uncertainties sensibly.
5. Use the method of least squares-fitting and interpret chi-squared, χ2.
6. Distinguish between random and systematic errors.
Special Topics:
On completion successful students will be able to:
1. gather information on a subject which goes substantially beyond that provided in lectures.
2. work in a group to produce a piece of work which promotes physics as an interesting area of study.
3. recognise the demands of group work.
4. grade their own and other’s work against specified assessment criteria.
Circuits
On completion successful students will be able to:
1. Describe the behaviour of capacitors and inductors.
2. Observe and explain transients.
3. Design and build integrating and differentiating circuits.
4. Explain ringing, damping and Q-factors in resonant circuits, including critical damping.
5. Use complex notation and complex impedances for:
Determination of amplitude and phase
Resonant circuits
Low-pass and high-pass filters
A.C. bridges.
Syllabus
Special Topics:
Students will attend a series of specialist lectures on selected topics at the forefront of modern day research in physics and a session introducing the project and group working. In the weeks following the lectures they will work together in small groups to produce a short booklet on one of the topics discussed in the lectures. The booklet should be designed for students studying A-level physics and aim to convey the excitement of modernday physics to them. Students will be expected to research beyond the material presented in the lectures in order to produce an informative and attractive piece of work. Each group will assess and grade their own booklet along with a number of booklets from other groups, and these grades will form the basis of the final course assessment.
Circuits:
1. Elementary circuit theory - discrete components, Kirchoffs laws and complex analysis
2. Semiconductor amplifiers - real and ideal systems
3. Positive feedback, oscillators and control loops
4. Analogue - to - digital conversion
Assessment methods
Method | Weight |
---|---|
Practical skills assessment | 100% |
Feedback methods
Oral feedback will be given by demonstrators during the lab sessions and the assessment interviews at the end of each experiment. An annotated copy of each Lab Report will be returned to the student and the marker will discuss their comments with students. Students are also sent an email copy of each experiment assessment and lab report Feedback & Marksheet.
Recommended reading
There are no specific textbooks for First Year Lab. The main first year textbook, Young & Freedman’s University Physics, is likely to be useful for understanding the physics behind most of the experiments. Students should also read through the pre-lab material for their experiments on Blackboard before the start of each lab block.
Study hours
Scheduled activity hours | |
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Assessment practical exam | 4 |
Lectures | 6 |
Practical classes & workshops | 66 |
Independent study hours | |
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Independent study | 24 |
Teaching staff
Staff member | Role |
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William Bertsche | Unit coordinator |