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

Learning outcomes

Knowledge and understanding:

  • Applying knowledge of mathematics, science, and engineering drawing
  • Procedures of design and execution processes as well as their social, cultural, economic and technical constraints, including procedures of testing and measuring the strength of utilized materials
  • Procedures of testing rock/soil samples and prediction of rock/soil properties
  • Implementation of various construction procedures, awareness of engineering legislations and concepts of project management
  • Concepts of structural analysis of determinate and indeterminate structures
  • Conceptions of fluid mechanics and hydraulics and flow of water and their application to the design of irrigation structures, and basis of sanitary engineering and treatment of wastes and control of water and air pollution
  • Perceptions of surveying work and use of recent surveying devices
  • Concepts of design of steel structures
  • Concepts of design of reinforced concrete structures
  • Concepts of design of foundations and ground structures
  • Basic concepts of quality control, quality assurance and total quality management
  • The fundamental role of local codes of practice and international standards in structural engineering
  • Crucial procedures in the preparation of contracts, tenders, and specifications in structural engineering fields as well as resolving disputes and claims
  • Bridge systems and the design basis of steel bridges
  • Concepts of design of special reinforced concrete water structures and prestressing
  • Fundamentals of planning, scheduling, monitoring of projects and maximum exploitation of resources
  • Understanding of inspection basis of structures and principles of maintenance and rehabilitation process

Intellectual skills:

  • Ability to define structural engineering problems in the framework of defined constraints in order to meet needs
  • Ability to derive different solution alternatives to the engineering problems and choose the optimum one "value engineering"
  • Ability to analyze input data and testing results
  • Ability to investigate problems and put forward the most convenient solution through full participation and constructive discussions with other parties
  • Propensity to establish a relation between suggested design and its practical implementation
  • Capability to differentiate among various construction processes and materials
  • Proficiency in grasping three-dimensional concepts
  • Ability of applying competent structural analysis and coherent implementation of codes of practice
  • Skills for analyzing the different constraints of design and execution of structures including architectural, electrical, mechanical, and interior design in the framework of working as one team
  • Competence of directing and planning contracts and construction processes

Professional and practical skills:

  • Ability to implement quality control, environmental control, and construction management procedures
  • Ability to design, plan, supervise, and manage the construction contracts
  • Implementation of some computer software for the analysis and design of structures
  • Accomplishment of use of laboratory instruments in the structural engineering fields
  • Proper exploitation of in-situ devices in the structural engineering fields and the preparation of quantity surveying reports
  • Ability to produce and read construction drawings as well as detailed structural calculation notes.

General and transferable skills:

  • Ability to work in a team
  • Ability to read and write technical reports and research papers
  • Ability to lead with maximizing the benefit of available resources
  • Ability to share ideas and communicate with others according to the code of professional ethics
  • Capability of time management and managing a work force
  • Continuity in understanding the newest technology, construction equipment, and procedures
  • Ability to recognize recent developments and evolutions in the structural engineering field.

Learning outcomes

Learning outcomes

Learning outcomes Knowledge and understanding:Applying knowledge of mathematics, science, and engineering drawingProcedures of design and execution processes as well as their social, cultural, economic and technical constraints, including procedures of testing and measuring the strength of utilized materialsProcedures of testing rock/soil samples and prediction of rock/soil propertiesImplementation of various construction procedures, awareness of engineering legislations and concepts of project managementConcepts of structural analysis of determinate and indeterminate structuresConceptions of fluid mechanics and hydraulics and flow of water and their application to the design of irrigation structures, and basis of sanitary engineering and treatment of wastes and control of water and air pollutionPerceptions of surveying work and use of recent surveying devicesConcepts of design of steel structuresConcepts of design of reinforced concrete structuresConcepts of design of foundations and ground structuresBasic concepts of quality control, quality assurance and total quality managementThe fundamental role of local codes of practice and international standards in structural engineeringCrucial procedures in the preparation of contracts, tenders, and specifications in structural engineering fields as well as resolving disputes and claimsBridge systems and the design basis of steel bridgesConcepts of design of special reinforced concrete water structures and prestressingFundamentals of planning, scheduling, monitoring of projects and maximum exploitation of resourcesUnderstanding of inspection basis of structures and principles of maintenance and rehabilitation processIntellectual skills:Ability to define structural engineering problems in the framework of defined constraints in order to meet needsAbility to derive different solution alternatives to the engineering problems and choose the optimum one "value engineering"Ability to analyze input data and testing resultsAbility to investigate problems and put forward the most convenient solution through full participation and constructive discussions with other partiesPropensity to establish a relation between suggested design and its practical implementationCapability to differentiate among various construction processes and materialsProficiency in grasping three-dimensional conceptsAbility of applying competent structural analysis and coherent implementation of codes of practiceSkills for analyzing the different constraints of design and execution of structures including architectural, electrical, mechanical, and interior design in the framework of working as one teamCompetence of directing and planning contracts and construction processesProfessional and practical skills:Ability to implement quality control, environmental control, and construction management proceduresAbility to design, plan, supervise, and manage the construction contractsImplementation of some computer software for the analysis and design of structuresAccomplishment of use of laboratory instruments in the structural engineering fieldsProper exploitation of in-situ devices in the structural engineering fields and the preparation of quantity surveying reportsAbility to produce and read construction drawings as well as detailed structural calculation notes.General and transferable skills:Ability to work in a teamAbility to read and write technical reports and research papersAbility to lead with maximizing the benefit of available resourcesAbility to share ideas and communicate with others according to the code of professional ethicsCapability of time management and managing a work forceContinuity in understanding the newest technology, construction equipment, and proceduresAbility to recognize recent developments and evolutions in the structural engineering field. FUE