Subject name (in Hungarian, in English) | Final Project B | |||
Final Project B
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Neptun code | BMEGEMTNKDB | |||
Type | study unit based on individual work, aided by consultation, without contact hours | |||
Course types and number of hours (weekly / semester) | course type: | lecture (theory) | exercise | laboratory excercise |
number of hours (weekly): | 0 | 12 | 0 | |
nature (connected / stand-alone): | - | - | - | |
Type of assessments (quality evaluation) | mid-term grade | |||
ECTS | 15 | |||
Subject coordinator | name: | Dr. Katula Levente Tamás | ||
post: | adjunct | |||
contact: | katula@att.bme.hu | |||
Host organization | Department of Material Science and Engineering | |||
http://www.att.bme.hu/ | ||||
Course homepage | http://www.att.bme.hu/oktatas/szakdolgozat-diplomaterv/ | |||
Course language | hungarian | |||
Primary curriculum type | mandatory | |||
Direct prerequisites | Strong prerequisite | NINCS | ||
Weak prerequisite | ||||
Parallel prerequisite | ||||
Milestone prerequisite | at least obtained 0 ECTS | |||
Excluding condition | NINCS |
Aim
The aim of the course is for the student to acquire the techniques used in the engineering practice related to energy and energy machines within the framework of the diploma design project, to acquire an independent problem-solving practice. During the diploma design task, he demonstrates his maturity for solving engineering tasks to a high standard by solving and documenting tasks related to various topics. During the diploma planning, he / she carries out independent engineering work under the guidance of the supervisor of the department - sometimes his / her plant consultant.
Learning outcomes
Competences that can be acquired by completing the course
Knowledge
With the help of his / her supervisor, he / she names the main content elements of the updated dissertation to be written about a chosen segment of the field. With the help of his / her supervisor, he / she describes the main tasks of the diploma thesis to be written about a chosen segment of the field in the dissertation. With the help of the knowledge acquired during your training, you will gather the additional knowledge necessary to complete the diploma thesis. With the help of his prior knowledge, he systematizes the new knowledge gained during the reading of the literature. He has the knowledge needed to analyze the literature reviewed. He / she is aware of the knowledge required to perform the tasks in the job description at the appropriate level. It identifies challenges that would require a departure from the terms of reference or an extension of the scope of the tasks. He has the knowledge to consult effectively with his supervisor. With the help of his / her background, he / she summarizes the abstract of his / her diploma thesis and is able to distinguish the content and size of each chapter. He has the knowledge to propose changes to the terms of reference if necessary.
Ability
Understands the tasks in the job description correctly. Specifies the correct order in which the tasks detailed in the job description are performed. It identifies the range of literature that still needs to be reviewed in order to properly prepare your dissertation. Describes the relevant knowledge found in the literature in your dissertation. It analyzes the literature reviewed in the light of what has been learned previously. He applies the professional knowledge acquired during his studies so far during the elaboration of his diploma thesis. It adequately addresses emerging challenges that would require deviating from the job description or expanding the tasks. In the course of his work, he prepares the results of the literature reviewed or the analysis carried out in order to make the consultations with his / her supervisor effective. Outline your thesis abstract according to each chapter and content constraints. Proposes to the supervisor to modify the dissertation assignment if the need arises.
Attitude
He constantly monitors his work, results and conclusions with the help of his supervisor and consultant. It expands your knowledge of the chosen nuclear field through continuous acquisition of knowledge. He is open to using information technology tools and acquiring new skills when needed. It strives to get to know the system of tools needed for technical problem solving, to use it error-free and routinely. It develops your ability to provide accurate and error-free problem solving, engineering precision and accuracy.
Independence and responsibility
Collaborates with your supervisor and consultant, as well as your fellow students as needed, to expand your knowledge. During the preparation of the dissertation, he / she accepts the well-founded professional and other critical remarks. He / she constantly cooperates with his / her supervisor, consultant and, if necessary, fellow students during the elaboration of his / her diploma thesis. With his knowledge, he makes a responsible, well-founded and independent decision based on his analyzes. He feels responsible for energy, the problems of energy management and the sustainable use of the environment, as well as present and future generations.
Teaching methodology
The subject is a unit without contact lessons. The student works independently on a complex task during the semester. He tries to solve the problems that arise during the solution of the task on his own. He uses the help of his supervisor and plant consultant only when making strategic decisions. During the solution of the task, the student comes to the solution of the task with the help of the knowledge and skills acquired during the training.
Support materials
Textbook
Paul Gruba, Justin Zobel: How To Write Your First Thesis, Springer Verlag, 2017, ISBN: 978-3-319-61853-1
Lecture notes
No book or note is available for the subject at the time of filling in the form, its earliest publication date is 2022.
Online material
Validity of the course description
Start of validity: | 2021. July 1. |
End of validity: | 2025. December 31. |
General rules
The evaluation of the performance is determined by the supervisor on the basis of the prepared diploma project. The diploma project is determined on the basis of the elaboration of the topic, the standard of the performed engineering, the quality of the processing of the literature related to the topic, the formal, aesthetic appearance, division and logical structure of the dissertation. The aspects of the scoring must be made on the basis of the evaluation form according to the current Faculty Regulations.
Assessment methods
Detailed description of mid-term assessments
Mid-term assessment No. 1 | ||
Type: | formative assessment, project-based, complex | |
Number: | 1 | |
Purpose, description: | The evaluation of the performance is determined by the supervisor on the basis of the prepared diploma project. The diploma project is determined on the basis of the elaboration of the topic, the standard of the performed engineering, the quality of the processing of the literature related to the topic, the formal, aesthetic appearance, division and logical structure of the dissertation. The aspects of the scoring must be made on the basis of the evaluation form according to the current Faculty Regulations. |
Detailed description of assessments performed during the examination period
The subject does not include assessment during the examination period.
The weight of mid-term assessments in signing or in final grading
ID | Proportion |
---|---|
Mid-term assessment No. 1 | 100 % |
The condition for signing is that the score obtained in the mid-year assessments is at least 40%.
The weight of partial exams in grade
There is no exam belongs to the subject.
Determination of the grade
Grade | ECTS | The grade expressed in percents |
---|---|---|
very good (5) | Excellent [A] | above 92 % |
very good (5) | Very Good [B] | 85 % - 92 % |
good (4) | Good [C] | 72 % - 85 % |
satisfactory (3) | Satisfactory [D] | 65 % - 72 % |
sufficient (2) | Pass [E] | 50 % - 65 % |
insufficient (1) | Fail [F] | below 50 % |
The lower limit specified for each grade already belongs to that grade.
Attendance and participation requirements
At least 70% the exercises (rounded down) must be actively attended.
Special rules for improving, retaken and replacement
The special rules for improving, retaken and replacement shall be interpreted and applied in conjunction with the general rules of the CoS (TVSZ).
Can the submitted and accepted partial performance assessments be resubmitted until the end of the replacement period in order to achieve better results? | ||
NO | ||
Taking into account the previous result in case of improvement, retaken-improvement: | ||
new result overrides previous result | ||
The way of retaking or improving a partial assessment for the first time: | ||
partial assesment(s) in this group cannot be improved or repeated, the final result is assessed in accordance with Code of Studied 122. § (6) |
Study work required to complete the course
Activity | hours / semester |
---|---|
participation in contact classes | 168 |
mid-term preparation for practices | 84 |
elaboration of a partial assessment task | 30 |
additional time required to complete the subject | 168 |
altogether | 450 |
Validity of subject requirements
Start of validity: | 2021. August 1. |
End of validity: | 2025. December 31. |
Primary course
The primary (main) course of the subject in which it is advertised and to which the competencies are related:
Mechanical engineering
Link to the purpose and (special) compensations of the Regulation KKK
This course aims to improve the following competencies defined in the Regulation KKK:
Knowledge
- Student has the comprehensive knowledge of the main properties and applications of structural materials used in engineering.
- Student has the knowledge of metrology and measurement theory in the field of mechanical engineering.
- Student has the detailed knowledge of the rules for the preparation of technical documentation.
Ability
- Student has the ability to carry out laboratory testing and analysis of materials used in the engineering field, and to evaluate and document test results.
- Student has the ability to use information and communication technologies and methods to solve technical problems.
- Student has the ability to perform managerial tasks after adequate practice.
Attitude
- Student strives to carry out their work in a complex approach based on a systems and process-oriented thinking.
- Student is open and receptive to learning, embracing and authentically communicating professional, technological development and innovation in engineering.
- Student strives to plan and carry out tasks to a high professional standard, either independently or in a team.
Independence and responsibility
- Student shares her acquired knowledge and experience through formal, non-formal and informal information transfer with those in her field.
- Student makes professional decisions independently in student's area of activity.
- Student takes initiative in solving technical problems.
Prerequisites for completing the course
Knowledge type competencies
(a set of prior knowledge, the existence of which is not obligatory, but greatly facilitates the successful completion of the subject) |
no |
Ability type competencies
(a set of prior abilities and skills, the existence of which is not obligatory, but greatly contributes to the successful completion of the subject) |
no |