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Showing 25 course outlines from 9861 matches
5026
MECHENG 235
: Design and Manufacture 12023 Semester One (1233)
The engineering design process as a teamwork and problem-solving activity involving analysis, synthesis, evaluation and critical thinking. Design methodology and communicating design intent through written and graphical means. Introduction to selected motive power sources, machine elements for mechanical power systems, and production and fabrication processes.
Prerequisite: ENGGEN 115
5027
MECHENG 235
: Design and Manufacture 12022 Semester One (1223)
The engineering design process as a teamwork and problem-solving activity involving analysis, synthesis, evaluation and critical thinking. Design methodology and communicating design intent through written and graphical means. Introduction to selected motive power sources, machine elements for mechanical power systems, and production and fabrication processes.
Prerequisite: ENGGEN 115
5028
MECHENG 235
: Design and Manufacture 12021 Semester One (1213)
The engineering design process as a teamwork and problem-solving activity involving analysis, synthesis, evaluation and critical thinking. Design methodology and communicating design intent through written and graphical means. Introduction to selected motive power sources, machine elements for mechanical power systems, and production and fabrication processes.
Prerequisite: ENGGEN 115
5029
MECHENG 235
: Design and Manufacture 12020 Semester One (1203)
The engineering design process as a teamwork and problem-solving activity involving analysis, synthesis, evaluation and critical thinking. Design methodology and communicating design intent through written and graphical means. Introduction to selected motive power sources, machine elements for mechanical power systems, and production and fabrication processes.
Prerequisite: ENGGEN 115
5030
MECHENG 242
: Mechanics of Materials 12025 Semester One (1253)
Principles of elastic material behaviour in the design of load carrying elements. Statically determinate stress systems; stress–strain relations. Bending of beams: stress–moment and moment–curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture.
Prerequisite: ENGGEN 121 or 150
5031
MECHENG 242
: Mechanics of Materials 12024 Semester One (1243)
Principles of elastic material behaviour in the design of load carrying elements. Statically determinate stress systems; stress–strain relations. Bending of beams: stress–moment and moment–curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture.
Prerequisite: ENGGEN 121 or 150
5032
MECHENG 242
: Mechanics of Materials 12023 Semester One (1233)
Principles of elastic material behaviour in the design of load carrying elements. Statically determinate stress systems; stress–strain relations. Bending of beams: stress–moment and moment–curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture.
Prerequisite: ENGGEN 121 or 150
5033
MECHENG 242
: Mechanics of Materials 12022 Semester One (1223)
Principles of elastic material behaviour in the design of load carrying elements. Statically determinate stress systems; stress–strain relations. Bending of beams: stress–moment and moment–curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture.
Prerequisite: ENGGEN 121 or 150
5034
MECHENG 242
: Mechanics of Materials 12021 Semester One (1213)
Principles of elastic material behaviour in the design of load carrying elements. Statically determinate stress systems; stress–strain relations. Bending of beams: stress–moment and moment–curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture.
Prerequisite: ENGGEN 121 or 150
5035
MECHENG 242
: Mechanics of Materials 12020 Semester One (1203)
Principles of elastic material behaviour in the design of load carrying elements. Statically determinate stress systems; stress–strain relations. Bending of beams: stress–moment and moment–curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture.
Prerequisite: ENGGEN 121 or 150
5036
5037
5038
MECHENG 313
: Design of Real-Time Software2025 Semester One (1253)
Introduces the principles of software design in a real-time environment. Main topics include computer/microcontroller architecture, programming in a real-time environment, software design and data acquisition systems.
Prerequisite: MECHENG 270
5039
MECHENG 313
: Design of Real-Time Software2024 Semester One (1243)
Introduces the principles of software design in a real-time environment. Main topics include computer/microcontroller architecture, programming in a real-time environment, software design and data acquisition systems.
Prerequisite: MECHENG 270
5040
MECHENG 313
: Design of Real-Time Software2023 Semester One (1233)
Introduces the principles of software design in a real-time environment. Main topics include computer/microcontroller architecture, programming in a real-time environment, software design and data acquisition systems.
Prerequisite: MECHENG 270
5041
MECHENG 313
: Design of Real-Time Software2022 Semester One (1223)
Introduces the principles of software design in a real-time environment. Main topics include computer/microcontroller architecture, programming in a real-time environment, software design and data acquisition systems.
Prerequisite: MECHENG 270
5042
MECHENG 313
: Design of Real-Time Software2021 Semester One (1213)
Introduces the principles of software design in a real-time environment. Main topics include computer/microcontroller architecture, programming in a real-time environment, software design and data acquisition systems.
Prerequisite: MECHENG 270
5043
MECHENG 313
: Design of Real-Time Software2020 Semester One (1203)
Introduces the principles of software design in a real-time environment. Main topics include computer/microcontroller architecture, programming in a real-time environment, software design and data acquisition systems.
Prerequisite: MECHENG 270
5044
MECHENG 322
: Control Systems2025 Semester One (1253)
An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, frequency response characteristics, and controller design (e.g., pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Prerequisite: ENGSCI 211, MECHENG 222
5045
MECHENG 322
: Control Systems2024 Semester One (1243)
An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, frequency response characteristics, and controller design (e.g., pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Prerequisite: ENGSCI 211, MECHENG 222
5046
MECHENG 322
: Control Systems2023 Semester One (1233)
An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, frequency response characteristics, and controller design (e.g., pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Prerequisite: ENGSCI 211, MECHENG 222
5047
MECHENG 322
: Control Systems2022 Semester One (1223)
An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, frequency response characteristics, and controller design (e.g., pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Prerequisite: ENGSCI 211, MECHENG 222
5048
MECHENG 322
: Control Systems2021 Semester One (1213)
An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, frequency response characteristics, and controller design (e.g., pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Prerequisite: ENGSCI 211, MECHENG 222
5049
MECHENG 322
: Control Systems2020 Semester One (1203)
An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, frequency response characteristics, and controller design (e.g., pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Prerequisite: ENGSCI 211, MECHENG 222
5050
MECHENG 334
: Design and Manufacture 32025 Semester One (1253)
Good practice and standard methods in mechanical engineering design. Conceptual and detailed design in projects involving machine elements, engineering sciences and engineering mechanics. Some of the advanced computer-aided tools (e.g., CAD, CAM, CAE) will be introduced and utilised in some projects.
Prerequisite: MECHENG 235, 236, 242
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