Understanding Product Design

This section introduces product design as a blend of creativity and problem-solving, highlighting key elements like user-centered design and sustainability.

What Is Product Design?

Product design is the creative process of developing products that address specific needs, blending aesthetics, functionality, and usability.

Key Elements Of Product Design

Product design integrates creativity with practical problem-solving, focusing on user-centered design, functionality, sustainability, and iteration.

Engineering In Product Design

Engineering principles are integral to product design, ensuring that products are functional, durable, and user-friendly.

Engineering Principles

This section introduces core engineering principles that are essential in the product design process.

Real-World Application

This section explores how engineering principles are applied in real-world product design, focusing on practical examples such as designing a collapsible bike helmet.

Robotics In Product Design

This section explores the integration of robotics with product design, focusing on its components, design process, and real-world applications.

What Is Robotics?

Robotics combines various fields to create intelligent machines capable of performing tasks autonomously or semi-autonomously.

Components Of A Robotic System

This section outlines the essential components of a robotic system, crucial for understanding how robots operate and are designed.

Robotics Design Process

The Robotics Design Process outlines the iterative steps for creating robotic systems to solve specific tasks.

Example Project

This section details a project where students design a robotic arm for a school science lab.

Physical Prototyping

This section delves into the importance and methods of physical prototyping in product design.

What Is Prototyping?

Prototyping is a crucial step in product design that involves creating tangible models to evaluate a product's functionality and usability.

Types Of Prototypes

This section discusses various types of prototypes, specifying low-fidelity and high-fidelity models used in product design.

Tools And Techniques

This section focuses on various tools and techniques used in physical prototyping, including 3D printing, laser cutting, and hand tools, while emphasizing the role of testing and iteration.

The Role Of Testing

This section emphasizes the importance of testing prototypes in product design to meet performance, usability, and safety criteria.

The Design Cycle In Action

The Design Cycle in Action emphasizes the structured approach needed for effective product design, highlighting the stages of inquiry, development, creation, and evaluation.

Stages Of The Myp Design Cycle

The MYP Design Cycle encompasses the stages that guide students in creating innovative solutions, integrating engineering, robotics, and prototyping.

Case Study: Smart Water Dispenser

This section details the design and implementation of a smart water dispenser aimed at reducing waste in school environments through innovative engineering, robotics, and prototyping.

Summary

Product design combines creativity and technical skill, focusing on engineering, robotics, and prototyping to develop innovative solutions.