Course Name |
Nuclear Energy |
Course Code |
CERCH008 |
Year |
2019-20 |
Course Designer |
Mr. Abdul Rahoof P |
Couse Duration |
30 Hrs. |
Course Schedule |
June to September |
Maximum Students Intake |
60 Students |
1. COURSE LEVEL
Advanced, skill-oriented certificate programme.
2. PREREQUISITE
Basic knowledge of Physics, Chemistry and Mathematics.
3. COURSE INTAKE & ADMISSION
Maximum 60 students will be given admission to the course based on First-Come-First-Serve basis. All the students of the MAMO College are eligible for free enrolment for the course. The enrolment notification will be issued for the course well in advance of the commencement of the course.
4. COURSE COORDINATOR
Mr. Abdul Rhoof P, Assistant Professor, Department of Chemistry
5. COURSE PREAMBLE
Polymer science can be applied to save energy and improve renewable energy technologies. It include the conversion of natural and synthetic raw materials in to products that include plastic, rubber, etc.
6. DURATION
Total Duration: 30 Hrs. [Contact Hrs. 16 Hrs., Course Woks: 7 and Assessment Works: 7]
7. CURRICULUM FOCUS
Enhance the employability of the learners through curriculum enrichment for additional skill development.
8. COURSE OBJECTIVES
Learners are expected to
a) Obtaining basic knowledge on nuclear energy sources.
b) Understand the sources of nuclear energy contributions to the energy and power needs of the nation and the world.
9. SKILL EXPECTED
On the successful completion of the course, learners will be able to:
(a) Understand the special engineering challenges of using each of these sources of energy efficiently and environmentally effectively.
(b) Understand the energy conversion systems for nuclear power plants, the advantages/disadvantages (including overall environmental effects) of each type of present plants.
10. COURSE OUTCOMES
Upon the successful completion of the course, learners will be able to:
CO No |
Course Outcome(CO) |
Skill/Knowledge Attainment Level Based on Revised Bloom’s Taxonomy |
CO1 |
Analyse the basic concepts of nuclear energy |
Analyze |
CO2 |
Describe the interaction of neutrons with matter. |
Understand |
CO3 |
Contrast between nuclear fusion and fission reactions |
Understand |
CO4 |
Application of reactor theory in power |
Apply |