Discovering Engineering Design in the 21st Century
An Activities-Based Approach
Published on 12. May 2023
Book
Paperback/Softback
256 pages
978-0-357-68520-4 (ISBN)
Description
Explore and investigate problem-solving approaches throughout the engineering design process with Striebig's DISCOVERING ENGINEERING DESIGN IN THE 21ST CENTURY: AN ACTIVITIES-BASED APPROACH. This engaging text teaches you how to apply principles of math and science to solve real-world problems that engineers commonly face. Throughout the text you'll learn about the engineering design process through activities and examples. These examples are designed to connect elements of visual drawing, safety and error analysis, and math and science principles together into a coherent framework. WebAssign's digital resources are also available for review and reinforcement.
More details
Language
English
Place of publication
United States
Publishing group
Cengage Learning, Inc
Target group
College/higher education
Dimensions
Height: 203 mm
Width: 254 mm
Thickness: 14 mm
Weight
478 gr
ISBN-13
978-0-357-68520-4 (9780357685204)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Person
Professor Bradley Striebig received his doctorate in environmental engineering from Pennsylvania State University. He has over 25 years of experience in designing pollution control systems and has worked to improve community resources in Benin, India, Kenya, Malta, Rwanda and throughout the United States. He has served as editor for several journals in the fields of engineering education and engineering for sustainable development. He has led award-winning funded research initiatives, the results of which have contributed to several books, journal articles and peer-reviewed conferences.
Content
1. ENGINEERING CONCEPTS AND SIMPLE TOOLS: MATERIALS, MASS, GRAVITY, AND MOMENT ARMS.
Introduction. Engineering Science and Practice. Fundamental Unit Analysis. Analysis of Forces. Newton's Law. Visualization - Engineering Drawing.
2. MEASUREMENTS AND EXPERIMENTS - DATA AND DECISIONS WITH SENSORS, RADIOS, AND ARDUINOS.
Introduction. Layers of Engineering and Science. Selecting Sensors to Capture Physical Phenomenon. Acquiring Data from Sensors. Automating Analysis with Programming Languages. Communicating Data and Results via RF Links.
3. STRUCTURES AND SOCIETY - STRUCTURAL ENGINEERING PROBLEM SOLVING TECHNIQUES TO DESIGN LONG-LASTING SOLUTIONS.
Introduction. A Brief History on Structural Engineering. The Structural Engineering Design Process. Problem Solving Techniques in Structural Engineering.
4. SUSTAINABLE DEVELOPMENT GOALS - ENGINEERING FOR ENVIRONMENTAL SUSTAINABILITY.
Introduction. Sustainable Development Goals. Civil and Environmental Engineering. Centralized Water Treatment Systems. Decentralized Water Treatment.
5. FOOD, WATER, AND NUTRIENTS IN THE CHESAPEAKE BAY: AN EARTH SYSTEMS ENGINEERING APPROACH.
Introduction. Earth Systems Engineering. The Blueprint for the Chesapeake Bay. Modeling Processes. Creating a Complex System Model using Multiple Processes.
6. APPROACHES TO ENGINEERING DESIGN.
Introduction. Engineering Design Process Overview. Problem Definition Phase. Conceptual Design Phase. Embodiment Design Phase. Detailed Design Phase.
7. DESIGNING FOR ENERGY EFFICIENCY.
Introduction. Energy, Engineering, and Mechanical Engineering. Energy Consumption. Energy Units. Direct and Embodied Energy. The Carbon Footprint. Decarbonization of Energy Supply.
8. LIFE CYCLE THINKING - UNDERSTANDING THE COMPLEXITY OF SUSTAINABILITY.
Introduction. How a Fly-fishing Rod Works. Design Choices for a Fly Rod. Materials Flow Analysis. Energy Flow Analysis. Life Cycle Thinking.
Introduction. Engineering Science and Practice. Fundamental Unit Analysis. Analysis of Forces. Newton's Law. Visualization - Engineering Drawing.
2. MEASUREMENTS AND EXPERIMENTS - DATA AND DECISIONS WITH SENSORS, RADIOS, AND ARDUINOS.
Introduction. Layers of Engineering and Science. Selecting Sensors to Capture Physical Phenomenon. Acquiring Data from Sensors. Automating Analysis with Programming Languages. Communicating Data and Results via RF Links.
3. STRUCTURES AND SOCIETY - STRUCTURAL ENGINEERING PROBLEM SOLVING TECHNIQUES TO DESIGN LONG-LASTING SOLUTIONS.
Introduction. A Brief History on Structural Engineering. The Structural Engineering Design Process. Problem Solving Techniques in Structural Engineering.
4. SUSTAINABLE DEVELOPMENT GOALS - ENGINEERING FOR ENVIRONMENTAL SUSTAINABILITY.
Introduction. Sustainable Development Goals. Civil and Environmental Engineering. Centralized Water Treatment Systems. Decentralized Water Treatment.
5. FOOD, WATER, AND NUTRIENTS IN THE CHESAPEAKE BAY: AN EARTH SYSTEMS ENGINEERING APPROACH.
Introduction. Earth Systems Engineering. The Blueprint for the Chesapeake Bay. Modeling Processes. Creating a Complex System Model using Multiple Processes.
6. APPROACHES TO ENGINEERING DESIGN.
Introduction. Engineering Design Process Overview. Problem Definition Phase. Conceptual Design Phase. Embodiment Design Phase. Detailed Design Phase.
7. DESIGNING FOR ENERGY EFFICIENCY.
Introduction. Energy, Engineering, and Mechanical Engineering. Energy Consumption. Energy Units. Direct and Embodied Energy. The Carbon Footprint. Decarbonization of Energy Supply.
8. LIFE CYCLE THINKING - UNDERSTANDING THE COMPLEXITY OF SUSTAINABILITY.
Introduction. How a Fly-fishing Rod Works. Design Choices for a Fly Rod. Materials Flow Analysis. Energy Flow Analysis. Life Cycle Thinking.