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Australia

University

Bachelor of Engineering

Kostenlose Übungen

Engineering Design

Definition and Scope of Engineering Design51 Design Thinking and Problem Solving58 Engineering Ethics and Sustainability50 Project Definition and Requirements Gathering56 Concept Generation and Evaluation44 Detailed Design and Analysis51 Design Verification and Validation53 Material Properties and Selection50 Manufacturing Processes50 Design for Manufacturability59 Engineering Mechanics54 Numerical Methods and Simulation59 Finite Element Analysis53 Engineering Drawings and Specifications55 Technical Writing and Presentation51 Design Review and Collaboration57

Mathematics for Engineers

Limits and Continuity52 Differentiation52 Integration51 Matrices and Determinants32 Vector Spaces58 First-Order Differential Equations53 Second-Order Differential Equations40 Complex Numbers53 Complex Functions40

Computer-Aided Design

Definition and Overview of CAD50 CAD Software and Interface51 2D Drawing Fundamentals30 Sketching and Constraining52 Extrusions and Revolutions54 Boolean Operations43 Creating and Managing Assemblies50 Mates and Constraints56 Exploded Views and Animations54 Parametric Modeling50 Surfacing and Rendering54 FEA and Simulation56

Digital Signal Processing

Definition and Applications of Digital Signal Processing53 Discrete-Time Signals and Systems53 Z-Transform and its Applications54 FIR Filter Design Techniques56 IIR Filter Design Techniques57 Filter Implementation and Structures59 Fourier Transform and its Applications54 Wavelet Transform and its Applications55 Adaptive Signal Processing Algorithms53 Digital Signal Processing in Communications52 Digital Signal Processing in Image Processing56 Digital Signal Processing in Control Systems57

Engineering Mechanics

Introduction to Statics50 Equilibrium of Particles51 Equilibrium of Rigid Bodies52 Trusses and Frames57 Friction53 Introduction to Dynamics59 Kinematics of Rigid Bodies52 Kinetics of Rigid Bodies50 Vibrations57 Introduction to Mechanics of Materials57 Axial Loading50 Bending54 Torsion39

Mechanical Engineering Design

Overview of Mechanical Engineering Design54 Engineering Materials57 Computer-Aided Design (CAD)50 Equilibrium of Forces and Moments34 Stress and Strain54 Bending and Torsion50 Kinematics and Kinetics56 Vibrations57 Machine Dynamics55 Thermodynamics56 Heat Transfer51 Fluid Mechanics57 Design Project 153 Design Project 256

Mechatronics

Definition and Overview of Mechatronics51 Historical Development of Mechatronics65 Benefits and Challenges of Mechatronics48 Types and Characteristics of Sensors53 Signal Conditioning Techniques55 Data Acquisition and Processing56 Types and Characteristics of Actuators58 Control System Fundamentals50 Control System Design Techniques52 Introduction to Embedded Systems53 Microcontroller Architecture and Programming59 Interfacing Techniques50 System Modeling and Simulation52 System Integration and Testing56 Case Studies and Applications51

Object-Oriented Programming

What is Object-Oriented Programming?55 Classes and Objects57 Inheritance and Polymorphism55 Arrays and Linked Lists53 Stacks and Queues56 Trees and Graphs52 Creational Design Patterns50 Structural Design Patterns52 Behavioral Design Patterns51 Software Development Lifecycle51 Testing and Debugging53 Agile Development51

Robotics

Definition and History of Robotics58 Types of Robots55 Robot Anatomy and Components54 Forward and Inverse Kinematics51 Robot Dynamics55 Robot Control51 Types of Robot Sensors51 Sensor Data Processing58 Robot Navigation and Mapping50 Artificial Intelligence in Robotics51 Robot Autonomy56 Ethical Considerations in Robotics57

Applied Thermodynamics

Definition and Classification of Systems52 Thermodynamic Properties54 Equations of State54 Forms of Energy Transfer50 Work52 Heat Transfer56 Statement of the First Law58 Applications of the First Law53 Specific Heats52 Statement of the Second Law52 Applications of the Second Law59 Entropy51 Power Cycles51 Refrigeration Cycles51 Applications of Power and Refrigeration Cycles50 Maxwell s Relations38 Clapeyron Equation51 Thermodynamic Tables and Diagrams54

Control Systems

Definition and Overview of Control Systems55 Mathematical Modeling of Control Systems54 Feedback Control Systems50 Transient Response Analysis54 Stability Analysis56 Bode Plots and Nyquist Diagrams37 Frequency Response Analysis54 PID Controllers57 State-Space Control50 Optimal Control52 Robust Control52

Electrical Engineering Fundamentals

Basic Concepts of Electrical Circuits51 DC Circuits50 AC Circuits53 Network Theorems54 Basic Concepts of Electromagnetism50 Magnetic Circuits53 Electromagnetic Waves55 Introduction to Power Systems54 Power System Analysis54 Renewable Energy Sources57 Semiconductor Devices56 Analog Circuits53 Digital Circuits55

Engineering Science

1.1 Introduction to Engineering Mechanics55 1.2 Statics of Particles57 1.3 Statics of Rigid Bodies56 1.4 Dynamics of Particles59 1.5 Dynamics of Rigid Bodies56 2.1 Introduction to Thermodynamics55 2.2 First Law of Thermodynamics50 2.3 Second Law of Thermodynamics55 2.4 Power and Refrigeration Cycles58 2.5 Applications of Thermodynamics53 3.1 Introduction to Fluid Mechanics51 3.2 Fluid Kinematics55 3.3 Fluid Dynamics52 3.4 Applications of Fluid Mechanics52 3.5 Computational Fluid Dynamics55 4.1 Introduction to Electrical Engineering55 4.2 DC Circuits52 4.3 AC Circuits41 4.4 Transformers and Machines50 4.5 Applications of Electrical Engineering51 5.1 Introduction to Materials Science and Engineering56 5.2 Mechanical Properties of Materials55 5.3 Electrical Properties of Materials51 5.4 Thermal Properties of Materials51 5.5 Applications of Materials Science and Engineering53

Fluid Mechanics

Definition and Scope of Fluid Mechanics50 Fluid Properties and their Measurement46 Fluid Statics51 Conservation Laws52 Inviscid Flow50 Viscous Flow53 Pipe Flow and Pumping Systems59 Fluid Machinery55 Computational Fluid Dynamics (CFD)51

Heat Transfer

Definition and Scope of Heat Transfer50 Basic Laws of Heat Transfer50 One-Dimensional Heat Conduction57 Composite Walls and Extended Surfaces53 Lumped Capacitance Analysis42 Numerical Methods for Transient Heat Conduction44 Fundamentals of Convection54 Forced Convection51 Natural Convection50 Basic Concepts of Radiation55 Radiation Exchange Between Surfaces35 Types and Applications of Heat Exchangers55 Heat Exchanger Analysis and Design53

Linear Algebra

Definition of a Vector Space54 Subspaces52 Linear Independence and Basis48 Coordinate Systems37 Definition and Properties59 Matrix Representation51 Eigenvalues and Eigenvectors40 Applications54 Definition and Properties55 Orthogonality and Projections39 Linear Operators on Inner Product Spaces55 Applications54

Materials Science

Definition and Scope of Materials Science37 Classification of Materials59 Structure of Materials59 Stress and Strain54 Elasticity and Plasticity54 Fracture and Fatigue58 Heat Capacity and Thermal Conductivity53 Thermal Expansion and Contraction50 Phase Transformations54 Electrical Conductivity and Resistivity54 Semiconductors and Insulators56 Superconductivity57 Magnetic Permeability and Susceptibility52 Ferromagnetism, Paramagnetism, and Diamagnetism55 Magnetic Materials and Applications58 X-ray Diffraction57 Scanning Electron Microscopy59 Transmission Electron Microscopy59

Probability and Statistics

Introduction to Probability58 Discrete Probability Distributions45 Continuous Probability Distributions48 Descriptive Statistics47 Inferential Statistics54 Non-Parametric Statistics52

Renewable Energy

Definition and Importance of Renewable Energy25 Types of Renewable Energy Sources50 Advantages and Disadvantages of Renewable Energy54 Principles of Solar Energy Conversion55 Solar Photovoltaic Systems50 Applications of Solar Energy52 Principles of Wind Energy Conversion42 Wind Turbine Technologies55 Applications of Wind Energy52 Principles of Hydropower Generation55 Hydropower Technologies50 Applications of Hydropower57 Principles of Geothermal Energy53 Geothermal Technologies54 Applications of Geothermal Energy53 Principles of Biomass Energy55 Biomass Conversion Technologies51 Applications of Biomass Energy58 Principles of Energy Storage54 Energy Storage Technologies50 Integration of Renewable Energy with Energy Storage54 Environmental Impacts of Renewable Energy55 Economic Aspects of Renewable Energy56 Policy and Regulatory Framework for Renewable Energy50

Signal Processing

Definition and Scope of Signal Processing51 Continuous-Time and Discrete-Time Signals37 Signal Representation and Analysis50 Linear Time-Invariant Systems55 Digital Filtering52 Adaptive Signal Processing51 Fourier Transform and Its Properties52 Spectral Analysis58 Digital Signal Processing Applications54

Civil Engineering Materials

Overview of Civil Engineering Materials51 Material Selection and Design52 Concrete Mix Design51 Concrete Properties53 Steel Production and Properties51 Steel Design56 Timber Properties and Grading51 Timber Design53 Types of Composite Materials50 Composite Design41

Dynamics

Definition and Scope of Dynamics57 Units and Dimensions55 Newton s Laws of Motion55 Equilibrium of Particles38 Displacement, Velocity, and Acceleration53 Motion in a Straight Line57 Motion in a Plane58 Force and Mass38 Work and Energy55 Impulse and Momentum56 Introduction to Rigid Bodies58 Plane Motion of Rigid Bodies56 Work and Energy in Rigid Body Motion53 Introduction to Vibrations58 Single-Degree-of-Freedom Systems52 Multi-Degree-of-Freedom Systems53

Geotechnical Engineering

Introduction to Soil Mechanics54 Soil Properties54 Soil Behavior55 Introduction to Foundation Engineering50 Deep Foundations51 Earth Retaining Structures40 Slope Stability Analysis50 Ground Improvement Techniques56 Geotechnical Earthquake Engineering21

Hydraulics and Hydrology

Definition and scope of hydraulics and hydrology51 Hydrologic cycle and water balance51 Fluid properties and fluid statics56 Types of fluid flow and flow regimes55 Continuity equation and Bernoulli s equation52 Energy losses in pipe flow58 Pipe network analysis41 Pump characteristics and selection51 Pump system design59 Types of open channel flow and flow regimes56 Energy and momentum principles in open channel flow58 Design of open channels51 Precipitation and evaporation51 Runoff and infiltration51 Flood hydrology57

Australia

University

Bachelor of Engineering

Kostenlose Übungen

Engineering Design

Definition and Scope of Engineering Design51 Design Thinking and Problem Solving58 Engineering Ethics and Sustainability50 Project Definition and Requirements Gathering56 Concept Generation and Evaluation44 Detailed Design and Analysis51 Design Verification and Validation53 Material Properties and Selection50 Manufacturing Processes50 Design for Manufacturability59 Engineering Mechanics54 Numerical Methods and Simulation59 Finite Element Analysis53 Engineering Drawings and Specifications55 Technical Writing and Presentation51 Design Review and Collaboration57

Mathematics for Engineers

Limits and Continuity52 Differentiation52 Integration51 Matrices and Determinants32 Vector Spaces58 First-Order Differential Equations53 Second-Order Differential Equations40 Complex Numbers53 Complex Functions40

Computer-Aided Design

Definition and Overview of CAD50 CAD Software and Interface51 2D Drawing Fundamentals30 Sketching and Constraining52 Extrusions and Revolutions54 Boolean Operations43 Creating and Managing Assemblies50 Mates and Constraints56 Exploded Views and Animations54 Parametric Modeling50 Surfacing and Rendering54 FEA and Simulation56

Digital Signal Processing

Definition and Applications of Digital Signal Processing53 Discrete-Time Signals and Systems53 Z-Transform and its Applications54 FIR Filter Design Techniques56 IIR Filter Design Techniques57 Filter Implementation and Structures59 Fourier Transform and its Applications54 Wavelet Transform and its Applications55 Adaptive Signal Processing Algorithms53 Digital Signal Processing in Communications52 Digital Signal Processing in Image Processing56 Digital Signal Processing in Control Systems57

Engineering Mechanics

Introduction to Statics50 Equilibrium of Particles51 Equilibrium of Rigid Bodies52 Trusses and Frames57 Friction53 Introduction to Dynamics59 Kinematics of Rigid Bodies52 Kinetics of Rigid Bodies50 Vibrations57 Introduction to Mechanics of Materials57 Axial Loading50 Bending54 Torsion39

Mechanical Engineering Design

Overview of Mechanical Engineering Design54 Engineering Materials57 Computer-Aided Design (CAD)50 Equilibrium of Forces and Moments34 Stress and Strain54 Bending and Torsion50 Kinematics and Kinetics56 Vibrations57 Machine Dynamics55 Thermodynamics56 Heat Transfer51 Fluid Mechanics57 Design Project 153 Design Project 256

Mechatronics

Definition and Overview of Mechatronics51 Historical Development of Mechatronics65 Benefits and Challenges of Mechatronics48 Types and Characteristics of Sensors53 Signal Conditioning Techniques55 Data Acquisition and Processing56 Types and Characteristics of Actuators58 Control System Fundamentals50 Control System Design Techniques52 Introduction to Embedded Systems53 Microcontroller Architecture and Programming59 Interfacing Techniques50 System Modeling and Simulation52 System Integration and Testing56 Case Studies and Applications51

Object-Oriented Programming

What is Object-Oriented Programming?55 Classes and Objects57 Inheritance and Polymorphism55 Arrays and Linked Lists53 Stacks and Queues56 Trees and Graphs52 Creational Design Patterns50 Structural Design Patterns52 Behavioral Design Patterns51 Software Development Lifecycle51 Testing and Debugging53 Agile Development51

Robotics

Definition and History of Robotics58 Types of Robots55 Robot Anatomy and Components54 Forward and Inverse Kinematics51 Robot Dynamics55 Robot Control51 Types of Robot Sensors51 Sensor Data Processing58 Robot Navigation and Mapping50 Artificial Intelligence in Robotics51 Robot Autonomy56 Ethical Considerations in Robotics57

Applied Thermodynamics

Definition and Classification of Systems52 Thermodynamic Properties54 Equations of State54 Forms of Energy Transfer50 Work52 Heat Transfer56 Statement of the First Law58 Applications of the First Law53 Specific Heats52 Statement of the Second Law52 Applications of the Second Law59 Entropy51 Power Cycles51 Refrigeration Cycles51 Applications of Power and Refrigeration Cycles50 Maxwell s Relations38 Clapeyron Equation51 Thermodynamic Tables and Diagrams54

Control Systems

Definition and Overview of Control Systems55 Mathematical Modeling of Control Systems54 Feedback Control Systems50 Transient Response Analysis54 Stability Analysis56 Bode Plots and Nyquist Diagrams37 Frequency Response Analysis54 PID Controllers57 State-Space Control50 Optimal Control52 Robust Control52

Electrical Engineering Fundamentals

Basic Concepts of Electrical Circuits51 DC Circuits50 AC Circuits53 Network Theorems54 Basic Concepts of Electromagnetism50 Magnetic Circuits53 Electromagnetic Waves55 Introduction to Power Systems54 Power System Analysis54 Renewable Energy Sources57 Semiconductor Devices56 Analog Circuits53 Digital Circuits55

Engineering Science

1.1 Introduction to Engineering Mechanics55 1.2 Statics of Particles57 1.3 Statics of Rigid Bodies56 1.4 Dynamics of Particles59 1.5 Dynamics of Rigid Bodies56 2.1 Introduction to Thermodynamics55 2.2 First Law of Thermodynamics50 2.3 Second Law of Thermodynamics55 2.4 Power and Refrigeration Cycles58 2.5 Applications of Thermodynamics53 3.1 Introduction to Fluid Mechanics51 3.2 Fluid Kinematics55 3.3 Fluid Dynamics52 3.4 Applications of Fluid Mechanics52 3.5 Computational Fluid Dynamics55 4.1 Introduction to Electrical Engineering55 4.2 DC Circuits52 4.3 AC Circuits41 4.4 Transformers and Machines50 4.5 Applications of Electrical Engineering51 5.1 Introduction to Materials Science and Engineering56 5.2 Mechanical Properties of Materials55 5.3 Electrical Properties of Materials51 5.4 Thermal Properties of Materials51 5.5 Applications of Materials Science and Engineering53

Fluid Mechanics

Definition and Scope of Fluid Mechanics50 Fluid Properties and their Measurement46 Fluid Statics51 Conservation Laws52 Inviscid Flow50 Viscous Flow53 Pipe Flow and Pumping Systems59 Fluid Machinery55 Computational Fluid Dynamics (CFD)51

Heat Transfer

Definition and Scope of Heat Transfer50 Basic Laws of Heat Transfer50 One-Dimensional Heat Conduction57 Composite Walls and Extended Surfaces53 Lumped Capacitance Analysis42 Numerical Methods for Transient Heat Conduction44 Fundamentals of Convection54 Forced Convection51 Natural Convection50 Basic Concepts of Radiation55 Radiation Exchange Between Surfaces35 Types and Applications of Heat Exchangers55 Heat Exchanger Analysis and Design53

Linear Algebra

Definition of a Vector Space54 Subspaces52 Linear Independence and Basis48 Coordinate Systems37 Definition and Properties59 Matrix Representation51 Eigenvalues and Eigenvectors40 Applications54 Definition and Properties55 Orthogonality and Projections39 Linear Operators on Inner Product Spaces55 Applications54

Materials Science

Definition and Scope of Materials Science37 Classification of Materials59 Structure of Materials59 Stress and Strain54 Elasticity and Plasticity54 Fracture and Fatigue58 Heat Capacity and Thermal Conductivity53 Thermal Expansion and Contraction50 Phase Transformations54 Electrical Conductivity and Resistivity54 Semiconductors and Insulators56 Superconductivity57 Magnetic Permeability and Susceptibility52 Ferromagnetism, Paramagnetism, and Diamagnetism55 Magnetic Materials and Applications58 X-ray Diffraction57 Scanning Electron Microscopy59 Transmission Electron Microscopy59

Probability and Statistics

Introduction to Probability58 Discrete Probability Distributions45 Continuous Probability Distributions48 Descriptive Statistics47 Inferential Statistics54 Non-Parametric Statistics52

Renewable Energy

Definition and Importance of Renewable Energy25 Types of Renewable Energy Sources50 Advantages and Disadvantages of Renewable Energy54 Principles of Solar Energy Conversion55 Solar Photovoltaic Systems50 Applications of Solar Energy52 Principles of Wind Energy Conversion42 Wind Turbine Technologies55 Applications of Wind Energy52 Principles of Hydropower Generation55 Hydropower Technologies50 Applications of Hydropower57 Principles of Geothermal Energy53 Geothermal Technologies54 Applications of Geothermal Energy53 Principles of Biomass Energy55 Biomass Conversion Technologies51 Applications of Biomass Energy58 Principles of Energy Storage54 Energy Storage Technologies50 Integration of Renewable Energy with Energy Storage54 Environmental Impacts of Renewable Energy55 Economic Aspects of Renewable Energy56 Policy and Regulatory Framework for Renewable Energy50

Signal Processing

Definition and Scope of Signal Processing51 Continuous-Time and Discrete-Time Signals37 Signal Representation and Analysis50 Linear Time-Invariant Systems55 Digital Filtering52 Adaptive Signal Processing51 Fourier Transform and Its Properties52 Spectral Analysis58 Digital Signal Processing Applications54

Civil Engineering Materials

Overview of Civil Engineering Materials51 Material Selection and Design52 Concrete Mix Design51 Concrete Properties53 Steel Production and Properties51 Steel Design56 Timber Properties and Grading51 Timber Design53 Types of Composite Materials50 Composite Design41

Dynamics

Definition and Scope of Dynamics57 Units and Dimensions55 Newton s Laws of Motion55 Equilibrium of Particles38 Displacement, Velocity, and Acceleration53 Motion in a Straight Line57 Motion in a Plane58 Force and Mass38 Work and Energy55 Impulse and Momentum56 Introduction to Rigid Bodies58 Plane Motion of Rigid Bodies56 Work and Energy in Rigid Body Motion53 Introduction to Vibrations58 Single-Degree-of-Freedom Systems52 Multi-Degree-of-Freedom Systems53

Geotechnical Engineering

Introduction to Soil Mechanics54 Soil Properties54 Soil Behavior55 Introduction to Foundation Engineering50 Deep Foundations51 Earth Retaining Structures40 Slope Stability Analysis50 Ground Improvement Techniques56 Geotechnical Earthquake Engineering21

Hydraulics and Hydrology

Definition and scope of hydraulics and hydrology51 Hydrologic cycle and water balance51 Fluid properties and fluid statics56 Types of fluid flow and flow regimes55 Continuity equation and Bernoulli s equation52 Energy losses in pipe flow58 Pipe network analysis41 Pump characteristics and selection51 Pump system design59 Types of open channel flow and flow regimes56 Energy and momentum principles in open channel flow58 Design of open channels51 Precipitation and evaporation51 Runoff and infiltration51 Flood hydrology57