The document describes a series of prompts asking the reader to identify physical attributes such as the number of eyes, legs, or hands that "he" has. Each prompt is followed by 2 possible answers and feedback saying "Good Job!" upon selecting the correct one, suggesting it is a game helping children learn about the human body.
The document outlines the engineering design process from problem identification through various phases of design and project management. It begins with problem identification, which involves defining customer needs and organizing them into a hierarchy of needs. This leads to developing a problem statement and specifying engineering requirements. Various concept generation techniques are then discussed along with evaluating and selecting concepts. Considerations for the detailed design phase include reliability, safety, and manufacturability. The document concludes with discussions on project management techniques like scheduling, communication, and presentations.
The document describes a series of prompts asking the reader to identify physical attributes such as the number of eyes, legs, or hands that "he" has. Each prompt is followed by 2 possible answers and feedback saying "Good Job!" upon selecting the correct one, suggesting it is a game helping children learn about the human body.
The document outlines the engineering design process from problem identification through various phases of design and project management. It begins with problem identification, which involves defining customer needs and organizing them into a hierarchy of needs. This leads to developing a problem statement and specifying engineering requirements. Various concept generation techniques are then discussed along with evaluating and selecting concepts. Considerations for the detailed design phase include reliability, safety, and manufacturability. The document concludes with discussions on project management techniques like scheduling, communication, and presentations.
The document outlines the 9 key steps in the engineering design process: 1) Identify the problem, 2) Define the problem, 3) Gather information, 4) Develop alternative solutions, 5) Select and refine the best solution, 6) Express the design solution, 7) Build a model or prototype, 8) Evaluate, revise, and refine the solution, and 9) Communicate the solution. The process involves carefully defining problems, researching potential solutions, developing and selecting the best alternative, building prototypes, testing and refining designs, and presenting the final solution.
The document discusses engineering design and machine design. It provides definitions of engineering design from various sources that describe it as an iterative decision making process to develop systems or devices to satisfy human needs. It also discusses types of engineering design such as original, adaptive, and variant design. Machine design is defined as the transformation of parameters influencing a physical process into concrete machine components to accomplish predefined physical work. The document outlines the interrelationship between machine design, engineering, and the design process.
Early adopters are gaining real economic value from social media investments. Customers who engage with companies over social media are more loyal and spend up to 40% more than other customers. Leading companies approach social media differently than average companies by linking social media efforts to business objectives, organizing efforts across business units, and measuring impact. The long-term winners will take a systematic approach based on principles like linking social media to objectives and measuring loyalty through Net Promoter scores.
The engineering design process involves 8 steps to develop a new product or system: 1) Identify the problem, 2) Identify criteria and constraints, 3) Brainstorm possible solutions, 4) Generate detailed ideas, 5) Explore the pros and cons of ideas, 6) Select the best approach, 7) Build a prototype, and 8) Refine the design based on testing and feedback. Students will go through this process to design a lunar plant growth chamber by documenting their work and solutions for each step.
Guide méthodologique réalisé par le Cluster Green & Connected Cities pour monter un écocentre, tiers-lieu nouvelle génération, hub de services de proximité
The document outlines the 9 key steps in the engineering design process: 1) Identify the problem, 2) Define the problem, 3) Gather information, 4) Develop alternative solutions, 5) Select and refine the best solution, 6) Express the design solution, 7) Build a model or prototype, 8) Evaluate, revise, and refine the solution, and 9) Communicate the solution. The process involves carefully defining problems, researching potential solutions, developing and selecting the best alternative, building prototypes, testing and refining designs, and presenting the final solution.
The document discusses engineering design and machine design. It provides definitions of engineering design from various sources that describe it as an iterative decision making process to develop systems or devices to satisfy human needs. It also discusses types of engineering design such as original, adaptive, and variant design. Machine design is defined as the transformation of parameters influencing a physical process into concrete machine components to accomplish predefined physical work. The document outlines the interrelationship between machine design, engineering, and the design process.
Early adopters are gaining real economic value from social media investments. Customers who engage with companies over social media are more loyal and spend up to 40% more than other customers. Leading companies approach social media differently than average companies by linking social media efforts to business objectives, organizing efforts across business units, and measuring impact. The long-term winners will take a systematic approach based on principles like linking social media to objectives and measuring loyalty through Net Promoter scores.
The engineering design process involves 8 steps to develop a new product or system: 1) Identify the problem, 2) Identify criteria and constraints, 3) Brainstorm possible solutions, 4) Generate detailed ideas, 5) Explore the pros and cons of ideas, 6) Select the best approach, 7) Build a prototype, and 8) Refine the design based on testing and feedback. Students will go through this process to design a lunar plant growth chamber by documenting their work and solutions for each step.
Guide méthodologique réalisé par le Cluster Green & Connected Cities pour monter un écocentre, tiers-lieu nouvelle génération, hub de services de proximité