Engineering (Common Entry)
Bachelor of Engineering (Honours)
Sonraí an Chúrsa
Cód CAO | AU649 |
---|---|
Céim | 8 |
Fad ama | 4 Years |
Pointí CAO | 462 (2024) |
Modh Seachadta | On-campus |
Suímh campais | Galway City – Dublin Road |
Modh Seachadta | Lánaimseartha |
Socrúchán oibre | Tá |
Forbhreathnú Cúrsa
This common entry programme that gives you an entry route into the following different Engineering honours degree courses:
Agricultural Engineering
Biomedical Engineering
Energy Engineering
Manufacturing Engineering Design
Mechanical Engineering
Automation and Robotics
Sonraí an Chúrsa
Bliain 1
Seimeastar | Sonraí an Mhodúil | Creidmheasanna | Éigeantach / Roghnach |
---|---|---|---|
1 |
Animal and Crop Production ScienceThis module provides the student with an overview of animal and crop production science with particular emphasis on production in Ireland. Torthaí Foghlama 1. Explainthe importance of agriculture in Ireland 2. Describe the principles and procedures in the sustainableproductionof livestock and crops on Irish farms. 3. Apply knowledge on the ethical and social responsibilities of farming in Ireland. 4. Demonstrate the application of knowledge in the performance of a range of routine farm skills 5. Adopt safeworking practiceswith animals, farm machineryand buildings |
05 | Elective |
Year |
Academic and Professional Skills (SC:EN)The aim of this module is to develop academic and professional development skills for student success in higher education and beyond. This module combines online learning activities and small group workshops to focus on areas such as academic writing and integrity, creative thinking, problem-solving, time management, communications, group work, technology, innovation and presentation skills. Torthaí Foghlama 1. Apply appropriate tools and principles to optimise the learning experience. 2. Develop self-reflection practices for individual and group-work activities. 3. Develop academic writing skills, recognise different information sources and apply the principles of academic integrity. 4. Assess a variety of professional communication practices and digital tools and apply to problem-solving. 5. Consider how the chosen discipline has a responsibility to wider society. |
05 | Mandatory |
Year |
Manufacturing Engineering 1Manufacturing Engineering 1 : aims to produce environmentally responsible engineers, who will conduct manufacturing activities with due regard to the environment, regulatory and legal requirements. The module introduces the learner to the basic skills required to be a manufacturing engineer. It is envisaged that the learners will have the capability to understand, analyse, design and/or select the machinery, tooling and processes necessary for the production of components. The practical element of this module will enable the learners to have the practical skills required to safely operate workshop equipment to produce component to a desired specification. Upon, completion of this module the learners will have obtained the basic necessary skills to gain employment working in a manufacturing engineering environment. Torthaí Foghlama 1. Recall and implement the safety procedures to put in place in an engineering workshop with due regard to the environmental, regulatory and legal requirements. 2. Manufacture artefacts using a range of workshop machines/equipment, while applying the appropriatespeeds and feeds for the selected machine operation. 3. Identify and use various types of cutting tools and metrology equipment, including drill bits, turning tools, milling machine tools, verniercalipers,micrometers, dial gauges etc) 4. Analyse and interpret engineering drawings to manufactureartefacts to the desired specification. 5. Discusssustainable manufacturing processes and technologies appropriate to a range of applications. 6. Communicate and operateas an effective team member, by working cohesivelyin a manufacturingenvironment 7. Complete a basic process plan and dimensional analysis report ofa manufactured component. |
10 | Mandatory |
Year |
Computer Aided Design 1Computer Aided Design 1 is a 3-hour weekly computer lab, delivered over the academic year, which introduces students to the modelling and creative design process through the use of CAD software. This module demonstrates how to create two-dimensional (2-D) drawings and three-dimensional (3-D) models. The CAD software used is standard with architects, engineers, drafters, artists, and others to create precision drawings or technical illustrations. Computer Aided Design 1 teaches the fundamental principles of technical drawing and modelling through an active learning environment where students are required to complete weekly assignments and also a design-and-build project at the end of each semester. Torthaí Foghlama 1. Use three-dimensional solid modelling software in the design of engineering components. 2. Apply engineering graphics standards. |
10 | Mandatory |
Year |
Electrical ScienceThis module will cover the fundamental principles of electrical science. Students will learn to analyse, design, build and troubleshoot basic electric and instrumentation circuits through both theory and practical applications. Torthaí Foghlama 1. Describe and define basic electrical, magnetic and other relevant physical quantities and perform fundamental calculations in relation to these quantities. 2. Analyse basic circuits using the fundamental laws of electrical science. 3. Describe the basic principles of electricity generation and perform DC and AC energy and power calculations. 4. Explain the technology and use of common electrical and electronic components, sensors and actuators and how these components are utilised in basic circuits. 5. Specify, select, build and troubleshoot basic electrical and instrumentation circuits; use appropriate electrical and electronic measuring equipment to perform basic electrical measurements. |
05 | Mandatory |
Year |
Engineering in BusinessThis module gives engineers an understanding of their roles in the world of business. It shows how they can improve competitiveness, through increased sales – by enhancing product design, and through reduced cost – by optimising production, increasing efficiency and reducing waste. Engineering students learn about productivity, capacity and cost-benefit analysis, and the importance of the consideration of business goals and money in an engineer's role. The module also introduces students to the importance of high ethical standards for engineers working in business. Students learn about project management and how to apply it. Torthaí Foghlama 1. Describe the stages in the New Product Design process, review the importance of customer input, specifications, constraints and manufacturability in new product design, and develop assembly instructions and a basic Bill of Materials for a product. 2. Describe the basic principles of Project Management and use a simple Gantt chart to plan and control a project. 3. Identify appropriate ethical behaviour for engineers, in relation to their impact on human society and sustainability, within the context of the UN’s Sustainable Development Goals, and in conformance to international standards and regulations. 4. Perform analysis and calculations, relating to business data, in areas including Capacity, Productivity, Quality, Material Requirements Planning and Cost-Benefit Analysis. 5. Describe the role of the engineer in an operation, e.g. Manufacturing Engineer, Mechanical Engineer, Energy Engineer, Biomedical Engineer, Agricultural Engineer. |
05 | Mandatory |
Year |
Mathematics 1This module is designed to introduce students to the fundamental mathematical concepts and techniques used in the practice of engineering and, in the process, help students to begin to develop the skill of analysing problems in a logical manner, and the ability to transfer their mathematical understanding to engineering applications. Torthaí Foghlama 1. Manipulate symbolic statements and expressions according to the transformational rules of mathematics. 2. Recognise that mathematical functions can be used to model various engineering phenomena and apply appropriate techniques to analyse and solve engineering-based problems. 3. Formulate and use mathematical representations (symbolic, numeric, graphical, visual, verbal) and identify their relations, advantages and limitations. 4. Critique a peer’s work objectively and communicate constructive feedback orally and in writing. 5. Communicate orally, and in written form, thereasoning and procedure for solving a mathematical problem. |
10 | Elective |
Year |
Manufacturing Engineering Mathematics 1This module is designed to introduce students to the fundamental mathematical concepts and techniques used in the practice of manufacturing engineering and, in the process, develop the skill of analysing problems logically and the ability to transfer their mathematical understanding to engineering applications. Torthaí Foghlama 1. Manipulate symbolic statements and expressions according to the transformational rules of mathematics. 2. Solve a range of equations and applied problems using mathematical methods from algebra, trigonometry and basic calculus. 3. Formulate and use mathematical representations (symbolic, numeric, graphical, visual, verbal) and identify their relations, advantages and limitations. 4. Critique a peer’s work objectively and communicate constructive feedback orally and in writing. 5. Communicate orally and in written formthe reasoning and procedure for solving a mathematical problem. |
10 | Elective |
Year |
Engineering ScienceEngineering Science is an introductory module which integrates basic engineering and scientific principles for the understanding and analysis of engineering related problems in physics and chemistry. Torthaí Foghlama 1. Define, explain and solve problems of force, pressure and density. |
10 | Elective |
Year |
Engineering Science for ManufacturingAn introduction to the basics of engineering science Torthaí Foghlama 1. Define, explain and solve basic problems of force, pressure and density. 6. Calculate the resultant of a simple two dimensional system of forces. |
10 | Elective |
Year |
Introduction to Energy SystemsThis module will provide an introduction to both conventional and renewable energy systems. Torthaí Foghlama 1. Explain the concept of energy, energy systems, sustainable/renewable energy systems. |
05 | Elective |
Year |
Mechanical DissectionThe module aims to develop an appreciation for the details that must be addressed in designing and manufacturing a machine or product. Students will develop a deeper understanding of how actual devices are made, how they function, and what they are made of as well as a greater appreciation for why things are done the way that they are. Torthaí Foghlama 1. Explain the importance of materials technology 4. Illustrate the function of mechanical components through communication methods such as graphical models, working drawings, bill of materials, posters, videos. 5. Work in a team and cooperative learning environment. |
05 | Elective |
Year |
Anatomy and Physiology for Engineers IThis module introduces anatomy and physiology to engineering students. Students will learn the anatomical terminology needed to communicate in the biomedical field. Tissue types of the body are distinguished. All the systems are briefly examined with a particular focus on the cardiovascular, digestive, and nervous systems. What can go wrong with these systems through injury or disease is investigated along with the solutions biomedical engineers develop to address them around the world. Torthaí Foghlama 1. Demonstrate correct usage of the terminology used to describe anatomical structures. 2. Describe the different structural levels of the human body. 3. Explain the structure and function of connective, epithelial, nervous, and muscle tissue. 4. Explain the structure, function, and regulation of the cardiovascular, digestive, and nervous systems. 5. Summarise the application of engineering technologies for addressing international health issues. |
05 | Elective |
Year |
Agricultural TechnologyThis module presents the fundamental principles of the following from both a theoretical classroom based and practical workshop perspective. Internal combustion CI Engines and Ancillary Systems Operating principles of farm machinery Basics of hydraulics and control systems Torthaí Foghlama 1. Describe the cycle of operation of an Internal Combustion (IC) engine,the basic operation of IC engine ancillary equipment and identify main components of these systems. 2. Examine and identify the mechanical components on Compression ignition (CI) IC engines and gearbox units, check tolerances aganist manufacturers specifications. 3. Explain the basic operating principles of a range of farm machinery and identify common dangers associated with such machinery. 4. Demonstrate calibration procedures on sowing/planting equipment, fertiliser distributors and crop sprayers. 5. Describe the functions of hydraulic systems, components involved in such systems and calculate hydraulic circuits flow rates and pressures. |
05 | Elective |
Download a prospectus
Riachtanais Iontrála
Leaving Certificate Entry Requirement | 6 subjects at O6/H7 |
QQI/FET Major Award Required | Any |
Additional QQI/FET/ Requirements | Three distinctions and a pass in 5N1833 or 6N3395 or 5N0556 or 5N18396 or C20139 or C20174 or C20175 or Leaving Certificate Maths at 06/H7 |
Táillí
Total Fees EU: €3000
This annual student contribution charge is subject to change by Government. Additional tuition fees may apply. Click on the link below for more information on fees, grants and scholarships.
Total Fees Non-EU: €12000
Subject to approval by ATU Governing Body (February 2025)
Tuilleadh eolais faoi tháillíProfessional Accreditation
This programme is accredited by Engineers Ireland
Further Information
Eolas Teagmhála
Department of Industrial & Mechanical Engineering
Dr Carine Gachon
Lecturer
T: +353 (0) 91 742106
E: carine.gachon@atu.ie
Mechanical & Industrial Engineering