Exam Details
Subject | physics of nuclear medicine & internal dosimetry | |
Paper | paper 3 | |
Exam / Course | m.sc. medical physics | |
Department | ||
Organization | Dr.M.G.R. Medical University | |
Position | ||
Exam Date | October, 2017 | |
City, State | tamil nadu, chennai |
Question Paper
OCTOBER 2017 Sub. Code: 4033
M.Sc. MEDICAL PHYSICS EXAMS
SECOND YEAR
PAPER III PHYSICS OF NUCLEAR MEDICINE AND INTERNAL
DOSIMETRY
Q.P. Code: 284033
Time Three hours Maximum 100 Marks
I. Elaborate on: x 20 40)
1. Describe in detail about the planning and shielding calculations of PET- CT
installation.
2. Describe in detail the basic principle, design and working of Gamma camera.
II. Write notes on: (10 x 6 60)
1. Two dimensional data acquisition in PET.
2. Explain about the iterative reconstruction and their draw backs.
3. Construction and working of Medical Cyclotron.
4. What is emission computed tomography.
5. Limitations of MIRD Technique.
6. Radio-nuclides produced from the cyclotron and their applications.
7. Explain the term specific absorbed dose fraction and dose Reciprocity theorm.
8. Estimation of Life span of RBC.
9. Gamma ray dosimetry of Internal radioactive isotope.
10. Image display and recording systems used in Nuclear medicine.
M.Sc. MEDICAL PHYSICS EXAMS
SECOND YEAR
PAPER III PHYSICS OF NUCLEAR MEDICINE AND INTERNAL
DOSIMETRY
Q.P. Code: 284033
Time Three hours Maximum 100 Marks
I. Elaborate on: x 20 40)
1. Describe in detail about the planning and shielding calculations of PET- CT
installation.
2. Describe in detail the basic principle, design and working of Gamma camera.
II. Write notes on: (10 x 6 60)
1. Two dimensional data acquisition in PET.
2. Explain about the iterative reconstruction and their draw backs.
3. Construction and working of Medical Cyclotron.
4. What is emission computed tomography.
5. Limitations of MIRD Technique.
6. Radio-nuclides produced from the cyclotron and their applications.
7. Explain the term specific absorbed dose fraction and dose Reciprocity theorm.
8. Estimation of Life span of RBC.
9. Gamma ray dosimetry of Internal radioactive isotope.
10. Image display and recording systems used in Nuclear medicine.
Other Question Papers
Subjects
- advanced techniques of radiotherapy
- anatomy physiology and pathology
- clinical radiation biology
- physics of medical imaging
- physics of nuclear medicine & internal dosimetry
- physics of radiation therapy
- radiation detectorsandinstrumentation
- radiation dosimetryandstandardization
- radiation physics
- radiation safety
- radiological mathematics