Emphasis on quantitative techniques including: hydrograph analysis, reservoir and channel routing, statistical methods and design floods, hydrologic modelling. ĮNGR 341 (3) Engineering Hydrology Hydrologic processes - weather, precipitation, infiltration, evaporation, snowmelt and runoff generation. ĮNGR 340 (3) Soil Mechanics Geological processes, soil classification, principle of effective stress, seepage analysis, shear strength, soil compaction, consolidation, and slope stability analysis.
ĮNGR 335 (3) Transportation Engineering Analysis, planning, design, and operation of transportation systems, including: governance, economics, land use, transport modes, users, roads, freeways, end-of-trip facilities, public transit, and intersection controls. ĮNGR 332 (3) Surveying and GIS Analysis Theory and application methods for measuring and representing objects of interest on, below, and over the earth's surface, and for analyzing data to meet engineering design and operational objectives driven by socio-economic or environmental concerns of natural and engineered systems. ĮNGR 331 (3) Infrastructure Management I Introduction to asset management, municipal infrastructure systems, performance and prioritization measures, data management, life cycle costing, decision support tools, integrated approach. Methods for probabilistic risk and reliability analysis. Prerequisite: All of APSC 259, APSC 260, APSC 261.ĮNGR 330 (3) Reliability and Risk Analysis for Civil Engineering Applied probability and simulation for civil engineering infrastructure. Design of one-way slabs, beams, and short columns. ĮNGR 327 (3) Reinforced Concrete Design I Analysis of reinforced concrete members subjected to flexure, shear, and combined bending and axial forces. Relationships between materials structures and mechanical properties. ĮNGR 325 (3) Civil Engineering Materials Structures and properties of common materials: aggregates, Portland cement, concrete, asphalt, timber, composites, and metals. ĮNGR 320 (3) Electromechanical Devices DC and AC magnetic circuits, transformers, DC machines, principles of electromagnetic devices, synchronous machines, induction motors, and brushless DC motors. ĮNGR 315 (3) Systems and Control Dynamic systems, linear systems, control concepts, block diagrams, transient response, root locus, frequency response, Bode and Nyquist plots, and controller design. program.ĮNGR 310 (3) Fluid Mechanics II Differential conservation, equations and solutions, boundary layers, compressible flows, and introduction to turbomachinery. Prerequisite: Second-year standing in the B.A.Sc. ĮNGR 305 (3) Engineering Economic Analysis Cost concepts, accounting, time value of money depreciation and taxes public sector projects economic evaluation techniques handling uncertainty sustainability in economic evaluation societal context infrastructure management needs project impacts, mitigating risk. External party engagement, including Indigenous communities. Managing the scope, costs, schedule, risks, and human resources in engineering projects.
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For example, it shows how to write a program that recursively prints all the values in a JSON document.Homepage Course Descriptions Course Descriptions Engineering, Faculty of Applied Science ENGR: Engineering ENGR 303 (3) Engineering Project Management Project management including initiating, planning, executing, controlling, and closing engineering projects. The chapter “Case Studies” dissects several projects that implement the best practices. Among other things, it shows how to parse the response from GitHub’s API.
The chapter “Deserialize with ArduinoJson” of Mastering ArduinoJson is a tutorial on deserialization. Void setup () Classes used in this example