Changes between Version 23 and Version 24 of Teaching/2020-21/NM&MRI


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Timestamp:
Nov 25, 2020, 1:27:06 PM (4 years ago)
Author:
longkr
Comment:

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  • Teaching/2020-21/NM&MRI

    v23 v24  
    1010The asynchronous content will contain the more theoretical content delivered in the form of topic-specific mini lectures augmented by "active learning" online, e.g. "quizzes", mini literature-review projects, and problems.  This material will be prepared by the lecturer (Ken Long) and course associate (Ruth McLauchlan) and released weekly by the Physics Undergraduate Office.
    1111
    12 The synchronous content will address the practical application of the nuclear medicine and MRI techniques in the clinic.  This material will be presented by practicing medical physicists experts in the various field.  Contributions will be made by Kuldip Nijran and Rebecca Quest from the Imperial College Healthcare NHS Trust and Sonia Nielles Vallespin from the National Heart and Lung Institute.
     12The synchronous content will address the practical application of the nuclear medicine and MRI techniques in the clinic.  This material will be presented by practising medical physicists experts in the various field.  Contributions will be made by Kuldip Nijran and Rebecca Quest from the Imperial College Healthcare NHS Trust and Sonia Nielles Vallespin from the National Heart and Lung Institute.
    1313
    1414The synchronous content will be delivered in two "Rapid feedback and application" (RFaA) sessions will take place each week; the first on Wednesdays at 11:00 and the second on Fridays at 14:00.  Each RFaA session will include protected time allocated for the students to raise questions related to any of the material presented in the course.
     
    2121
    2222|| ** Week ** || ** Block ** || ** Section ** || ** "Active learning" ** ||
    23 || 1. 15Feb21 || 1. [raw-attachment:2020-10-21-Wk01-Blk01-Slides.pdf Introduction, nuclear medicine o/v, nuclear decay theory] || 1. [raw-attachment:2020-10-21-Wk01-Blk01-Sctn01-Slides.pdf Introduction]                                           || ||
     23|| 1. 15Fev21 || 1. [raw-attachment:2020-10-21-Wk01-Blk01-Slides.pdf Introduction, nuclear medicine o/v, nuclear decay theory] || 1. [raw-attachment:Wk01-Blk01-Sctn01-Slides.pdf Introduction]                                                      || ||
    2424||            ||                                                                                                               || 2. [raw-attachment:2020-10-21-Wk01-Blk01-Sctn02-Slides.pdf Methods for production of radionuclides]                || ||
    2525||            ||                                                                                                               || 3. [raw-attachment:2020-10-21-Wk01-Blk01-Sctn03-Slides.pdf Nuclear decay, revision]                                || ||
     
    4040||            ||                                                                                                               || 2. [raw-attachment:2020-11-20-Wk03-Blck01-Sctn02-Slides.pdf System resolution]                                     || ||
    4141||            ||                                                                                                               || 3. [raw-attachment:2020-11-20-Wk03-Blck01-Sctn03-Slides.pdf Sensitivity]                                           || ||
    42 ||            || 2. [raw-attachment:2020-11-20-Wk03-Blck02-Slides.pdf Positron emission tomography II]                         || 1. [raw-attachment:2020-11-20-Wk03-Blck02-Sctn01-Slides.pdf Types of coincisence event]                            || ||
     42||            || 2. [raw-attachment:2020-11-20-Wk03-Blck02-Slides.pdf Positron emission tomography II]                         || 1. [raw-attachment:2020-11-20-Wk03-Blck02-Sctn01-Slides.pdf Types of coincidence event]                            || ||
    4343||            ||                                                                                                               || 2. [raw-attachment:2020-11-20-Wk03-Blck02-Sctn02-Slides.pdf System resolution]                                     || ||
    4444||            ||                                                                                                               || 3. [raw-attachment:2020-11-20-Wk03-Blck02-Sctn03-Slides.pdf Data acquisition]                                      || ||
     
    4747|| 4. 08Mar21 || 1. [raw-attachment:2020-11-01-Wk04-Blk01-Slides.pdf Introduction to MRI and quantum-mechanical foundations]   || 1. [raw-attachment:2020-11-01-Wk04-Blk01-Sctn01-Slides.pdf Introduction to MRI]                                    || ||
    4848||            ||                                                                                                               || 2. [raw-attachment:2020-11-01-Wk04-Blk01-Sctn02-Slides.pdf Quantum mechanical foundations]                         || ||
    49 ||            || 2. [raw-attachment:2020-11-14-Wk04-Blck02-Slides.pdf Classical derivation of Larmor eqation, Rotating M]      || 1. [raw-attachment:2020-11-14-Wk04-Blck02-Sctn01-Slides.pdf Classical derivation of Larmor equation]               || ||
     49||            || 2. [raw-attachment:2020-11-14-Wk04-Blck02-Slides.pdf Classical derivation of Larmor equation, Rotating M]      || 1. [raw-attachment:2020-11-14-Wk04-Blck02-Sctn01-Slides.pdf Classical derivation of Larmor equation]               || ||
    5050||            ||                                                                                                               || 2. [raw-attachment:2020-11-14-Wk04-Blck02-Sctn02-Slides.pdf Rotating the magnetisation]                            || ||
    5151||            ||                                                                                                               || 3. [raw-attachment:2020-11-14-Wk04-Blck02-Sctn03-Slides.pdf Free induction decay]                                  || ||
     
    6666||            ||                                                                                                               || 2. [raw-attachment:2020-11-19-Wk07-Blck01-Sctn02-Slides.pdf MRI artefacts: chemical shift]                         || ||
    6767
     68== Exam -- "Timed remote assessment" ==
     69
     70[raw-attachment:ESOGE.2020.55-TRA-Guide.pdf Guidance provided by the Physics UG office]
     71
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