Engineering Design Process For Egg Glove Envelope Crutch Challenge Answer Key

Last Modified: Published: 2023/05
th?q=engineering%20design%20process%20for%20egg%20glove%20envelope%20crutch%20challenge%20answer%20key - Engineering Design Process For Egg Glove Envelope Crutch Challenge Answer Key
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Introduction

Design challenges are an excellent way to develop critical thinking and problem-solving skills. In this article, we will discuss the engineering design process for the egg glove envelope crutch challenge answer key. This challenge is an exciting activity that involves designing a protective glove envelope that can protect an egg from breaking when dropped from a height while being held in a crutch.

The Engineering Design Process

The engineering design process is a series of steps that engineers use to solve problems. The process consists of six steps: define the problem, research the problem, develop possible solutions, select the best solution, implement the solution, and evaluate the solution.

Step 1: Define the Problem

The first step in the engineering design process is to define the problem. In this challenge, the problem is to design a protective glove envelope that can protect an egg from breaking when dropped from a height while being held in a crutch.

Step 2: Research the Problem

The second step in the engineering design process is to research the problem. This involves gathering information about the problem, such as the characteristics of the egg, the height of the drop, and the materials that can be used to design the protective glove envelope.

Step 3: Develop Possible Solutions

The third step in the engineering design process is to develop possible solutions. This involves brainstorming ideas and creating sketches or models of potential glove envelopes that can protect the egg from breaking.

Step 4: Select the Best Solution

The fourth step in the engineering design process is to select the best solution. This involves evaluating the potential glove envelopes and selecting the one that is most likely to protect the egg from breaking when dropped from a height while being held in a crutch.

Step 5: Implement the Solution

The fifth step in the engineering design process is to implement the solution. This involves creating the final design of the protective glove envelope and testing it to ensure that it can protect the egg from breaking when dropped from a height while being held in a crutch.

Step 6: Evaluate the Solution

The sixth and final step in the engineering design process is to evaluate the solution. This involves analyzing the results of the testing and making any necessary adjustments to the design.

Conclusion

Design challenges are an excellent way to develop critical thinking and problem-solving skills. The egg glove envelope crutch challenge is an exciting activity that can help students learn the engineering design process. By following the six steps of the engineering design process, students can develop a protective glove envelope that can protect an egg from breaking when dropped from a height while being held in a crutch.

 

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