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Bachelor of Engineering (B.Eng.)
Degree: Bachelor of Engineering (B.Eng.)
For ambitious future engineers who pursue engineering excellence with forefront digital competencies
Mechanical engineers are the driving force of industrial progress, who bring ideas and visions into reality by developing machines and systems that influence and facilitate our lives. The unprecedented thriving development of digitalisation brings forth numerous innovative information and communication technologies. A new generation of mechanical engineering is born, where engineers, people, machines, and various processes are inter-connected through digital networks.
This undergraduate programme is developed to meet the talent demand of the world industry. In addition to acquiring fundamental engineering knowledge, you will deal with digital technologies both in product development and production process extensively, including special applications in industrial data management, such as simulation of production processes or the co-development of digital twins.
You will walk out of the programme with know-how to take on responsibilities in networked production, in mechanical and plant engineering, automotive engineering, chemical industry or environmental technology. After completing the programme, you can work as an engineer in industries or quality management, help optimise production lines, establish resource-saving production methods or help planning the digital factory of the future.
This degree programme provides you with the flexibility to study first on campus for two years in Essen, Germany, before expanding your theoretical and practical horizons in the third year either further on campus or online worldwide.
You will complete your degree programme in Mechanical Engineering & Digital Technologies with the academic degree Bachelor of Engineering (B.Eng.).
University entrance qualification
English language proficiency minimum level B2 or equivalent
English language proficiency equivalents to CEFR Level B2 include
The registration fee confirms your enrolment at FOM University and unlocks services which you will need to prepare for the start of the programme as well as the services you will have throughout your degree courses. The fee is non-refundable.
In case you have to resubmit the final thesis, the examination fee will be charged again.
including registration fee, tuition fee and examination fee
Fourier series
Linear Algebra II
Derivative
Ordinary differential equations
Basic concepts of statics: forces and their decomposition; force pairs, torsional and bending moments
Equilibrium conditions
Locating the centre of mass
Bending stress
Rigid body dynamics
Pendulum swing
Electrical measurements
Temperature measurement
Torque
Practical introduction to control engineering
measuring, monitoring and controlling using smartphones and embedded systems
Fundamentals of physics and sensor technology
Measurement chain modelling
Temperature sensors
Kinematic and dynamic measurement
Fluid measurement technology
Sensorsystems
Research design
Basic formal requirements
Research methods
Stakeholder analysis
Risk management
Scheduling and resource planning
Agile project management
Vibrations and waves
Electromagnetic waves
Elementary quantum physics
Structure of matter
Elementary chemistry
Structure of technical drawings
Construction basics
Strength, static and dynamic component verification
Clutch, gear and breaks fundamentals
Basic concepts of fluid mechanics
Hydrostatics
Hydrodynamic foundations of ideal fluids
Pipe flow
Potential flow
Tensors
Autonomous Systems
Complex functions
Integral transforms
Basic terms in calculus of variations
Digital Business & Business Models
Trend analysis
Innovation (Lean Startup, Design Thinking etc.)
Pitching
History and definition of ESG and sustainability
Dimensions of sustainability
Corporate Social Responsibility
Interculturality and diversity
Data in Industry 4.0
Data collection and transfer
Data quality and data security
Foundations of quantitative data analysis
Correlation analysis
Statistical experiment design
Methods and software solutions for machine learning
Direct current technology
Fundamentals of the electromagnetic field
Introduction to semiconductor and microsystems technology
Kinematics of mass points
Robot kinematics
Kinetics of mass points
Oscillation
Coordinate systems
Perspectives
Building components and assembly structure
Tasks of innovation and technology management
Innovation strategies
Creativity and problem solution strategies
Role of services in the context of digitalisation
Service quality and management
Introduction to quality management and its transformation to Quality 4.0
Norms and rules for quality management (QM)
Establishment and planning of a QM system
Risk management / advanced product quality planning methods
Software solutions for quality 4.0
Foundations of production theory and production systems
Role of safety, environmental protection and regulations
Foundations of processes (process engineering, chamical reaction engineering and environmental engineering)
Modes of operation (batch-processing, continous production, joint production)
Industrial manufacturing process in metalworking and plastics industry
Additive manufacturing processes
Sustainability in the manufacturing process
Energy, work, heat, temperature
ideal gases and pure substances
real fluids
heat conduction
convection component design
Electrical machines
Internal combustion engines
Hydraulics and pneumatics
Overarching aspects (i.e. energy conversion efficiency, fouling)
Introduction to digitised production
IT systems in production and their significance for the Digital Twin.
Technologies and their application in smart factories (i.e. cloud computing, AI, cellular technology)
Sustainability aspects in the smart factory
Technology implementation challenges and the shift towards smart factories
Controls (SPS/PLC; IPC)
Digital control engineering
Communication networks
Applications of industrial bus systems and networks
Cyber-physical systems
Foundations of quality management and certification
Case study structure
Asynchronous group work on selected case studies
Formal, methodological and content requirements in academic research and writing
Identifying research problems and developing a research question
Developing and presenting a research plan