Future University In Egypt (FUE)
Future University is one of most promising private universities in Egypt. Through excellence in teaching, research and service, Future University strives to provide a comprehensive, high-quality education that prepares our graduates to be future leaders.
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90th Street
New Cairo
Egypt
Faculty of Engineering & Technology
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Learning outcomes

To achieve the program aims, the following carefully investigated and selected Intended Learning Outcomes (ILOs) are targeted:

A-Knowledge and understanding:

Graduates of the program should be able to
  • Concepts and theories of mathematics, sciences, engineering projection and their application within the field of Structural Eng. & Construction Management.
  • The principles of information and communication (ICT) technology and English language.
  • Quality assurance, codes of practice and standards, health and safety requirements and environmental issues associated with Structural Eng. & Construction Management projects.
  • Characteristics of engineering materials used in construction.
  • Principles of design of steel and concrete structures.
  • Methodologies of solving Structural Eng. & Construction Management problems, data collection and interpretation.
  • Contemporary engineering topics
  • Current engineering technologies related to structural systems.
  • Topics related to humanitarian interests and moral issues.
  • Business and management principles needed for Structural Eng. & Construction Management works.
  • Technical language and report writing of different types efficiently.
  • Professional ethics, law and impact of Structural Eng. & Construction Management projects on the society and the environment.
  • Reasonable knowledge of the principles of geo-techniques and foundations, hydraulics and hydrology, water resources.
  • Reasonable knowledge of the principles of environmental and sanitary engineering and roadways.
  • Reasonable knowledge of the principles of electrical systems, traffic systems, and surveying.
  • Properties, behavior, and fabrication of construction materials.
  • Project supervision and development of construction management schemes including planning, finance, bidding, contracts, cost estimate, quality systems.

B-Intellectual skills

Graduates of the program should be able to:
  • Select appropriate mathematical and computer-based methods to model and analyze Structural Eng. & Construction Management problems.
  • Select appropriate solutions for Structural Eng. & Construction Management problems based on analytical thinking.
  • Combine, exchange, and assess various types of information, views, and data from a range of different sources.
  • Think in a creative and innovative way in problem solving and design.
  • Assess and evaluate the characteristics and performance of structural components, and systems.
  • Solve environmental and socioeconomic problems
  • Investigate the failure of structural components and systems.
  • Solve Structural Eng. & Construction Management problems, often on the basis of limited and possibly contradicting information.
  • Select and appraise appropriate ICT tools to a variety of Structural Eng. & Construction Management problems.
  • Judge engineering decisions considering balanced costs, benefits, safety, quality, reliability, and environmental impact.
  • Incorporateeconomic, societal, environmental dimensions and risk management in design
  • Create systematic and methodic approaches when dealing with new and advancing technology.
  • Analyze the results of models and assess their appropriateness and limitations.
  • Design a variety of structures and infrastructure facilities such as buildings, bridges, roads, traffic systems, water and sewage systems.
  • Use codes of practices in designing and detailing reinforced engineering concrete, metallic structures, highways, traffic facilities, and water and sewage systems.
  • Define, plan, conduct and report management techniques.
  • Assess and evaluate different techniques and strategies for solving structural engineering problems.

C-Professional and practical skills

Graduates of the program should be able to:
  • Apply knowledge of mathematics, science, information technology, design, business context and engineering practice integrally to solve Structural Eng. & Construction Management problems.
  • Professionally merge the engineering knowledge, understanding, and feedback to improve design of structures.
  • Re-design a building, or system, and carry out specialized structural engineering designs.
  • Practice the neatness and aesthetics in structural design and approach.
  • Use computational facilities and techniques, measuring instruments, workshops and laboratory equipment to design experiments, collect, analyze and interpret results.
  • Use a wide range of analytical tools, techniques, equipment, and software packages developed for Structural Eng. & Construction Management projects.
  • Apply numerical modeling methods to Structural engineering problems.
  • Apply safe systems at work and observe the appropriate steps to manage risks.
  • Demonstrate basic organizational and project management skills.
  • Apply quality assurance procedures and follow codes and standards.
  • Exchange knowledge and skills with engineering community and industry.
  • Prepare and present technical reports.
  • Use laboratory and field equipment competently and safely, observe record and analyze data.
  • Practice, professionally, construction management skills. Prepare technical drafts and detailed drawings both manually and using computer aided drawing (CAD) programs.
  • Plan, design and construct maintenance plans of all of structural systems or component.

D- General and transferable skills

Graduates of the program should be able to:
  • Collaborate effectively within multidisciplinary team.
  • Work in stressful environment and within constraints.
  • Lead and motivate others, acquire entrepreneurial skills, share ideas and communicate them with others effectively.
  • Demonstrate efficient IT capabilities.
  • Effectively manage tasks, time, and resources.
  • Search for information and engage in life- long self-learning discipline.

Learning outcomes

Learning outcomes

Learning outcomes To achieve the program aims, the following carefully investigated and selected Intended Learning Outcomes (ILOs) are targeted:A-Knowledge and understanding:Graduates of the program should be able toConcepts and theories of mathematics, sciences, engineering projection and their application within the field of Structural Eng. & Construction Management.The principles of information and communication (ICT) technology and English language.Quality assurance, codes of practice and standards, health and safety requirements and environmental issues associated with Structural Eng. & Construction Management projects.Characteristics of engineering materials used in construction.Principles of design of steel and concrete structures.Methodologies of solving Structural Eng. & Construction Management problems, data collection and interpretation.Contemporary engineering topicsCurrent engineering technologies related to structural systems.Topics related to humanitarian interests and moral issues.Business and management principles needed for Structural Eng. & Construction Management works.Technical language and report writing of different types efficiently.Professional ethics, law and impact of Structural Eng. & Construction Management projects on the society and the environment.Reasonable knowledge of the principles of geo-techniques and foundations, hydraulics and hydrology, water resources.Reasonable knowledge of the principles of environmental and sanitary engineering and roadways.Reasonable knowledge of the principles of electrical systems, traffic systems, and surveying.Properties, behavior, and fabrication of construction materials.Project supervision and development of construction management schemes including planning, finance, bidding, contracts, cost estimate, quality systems.B-Intellectual skillsGraduates of the program should be able to:Select appropriate mathematical and computer-based methods to model and analyze Structural Eng. & Construction Management problems.Select appropriate solutions for Structural Eng. & Construction Management problems based on analytical thinking.Combine, exchange, and assess various types of information, views, and data from a range of different sources.Think in a creative and innovative way in problem solving and design.Assess and evaluate the characteristics and performance of structural components, and systems.Solve environmental and socioeconomic problemsInvestigate the failure of structural components and systems.Solve Structural Eng. & Construction Management problems, often on the basis of limited and possibly contradicting information.Select and appraise appropriate ICT tools to a variety of Structural Eng. & Construction Management problems.Judge engineering decisions considering balanced costs, benefits, safety, quality, reliability, and environmental impact.Incorporateeconomic, societal, environmental dimensions and risk management in designCreate systematic and methodic approaches when dealing with new and advancing technology.Analyze the results of models and assess their appropriateness and limitations.Design a variety of structures and infrastructure facilities such as buildings, bridges, roads, traffic systems, water and sewage systems.Use codes of practices in designing and detailing reinforced engineering concrete, metallic structures, highways, traffic facilities, and water and sewage systems.Define, plan, conduct and report management techniques.Assess and evaluate different techniques and strategies for solving structural engineering problems.C-Professional and practical skillsGraduates of the program should be able to:Apply knowledge of mathematics, science, information technology, design, business context and engineering practice integrally to solve Structural Eng. & Construction Management problems.Professionally merge the engineering knowledge, understanding, and feedback to improve design of structures.Re-design a building, or system, and carry out specialized structural engineering designs.Practice the neatness and aesthetics in structural design and approach.Use computational facilities and techniques, measuring instruments, workshops and laboratory equipment to design experiments, collect, analyze and interpret results.Use a wide range of analytical tools, techniques, equipment, and software packages developed for Structural Eng. & Construction Management projects.Apply numerical modeling methods to Structural engineering problems.Apply safe systems at work and observe the appropriate steps to manage risks.Demonstrate basic organizational and project management skills.Apply quality assurance procedures and follow codes and standards.Exchange knowledge and skills with engineering community and industry.Prepare and present technical reports.Use laboratory and field equipment competently and safely, observe record and analyze data.Practice, professionally, construction management skills. Prepare technical drafts and detailed drawings both manually and using computer aided drawing (CAD) programs.Plan, design and construct maintenance plans of all of structural systems or component.D- General and transferable skillsGraduates of the program should be able to:Collaborate effectively within multidisciplinary team.Work in stressful environment and within constraints.Lead and motivate others, acquire entrepreneurial skills, share ideas and communicate them with others effectively.Demonstrate efficient IT capabilities.Effectively manage tasks, time, and resources.Search for information and engage in life- long self-learning discipline. FUE