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Thermal Energy Portfolio Introduction Now you will apply what you learned about thermal energy by completing the following tasks for a portfolio: Reading about how to design a device to maximize thermal energy transfer Recording your thoughts about using different criteria and constraints Completing a “Concept Web” to help you narrow down the criteria and constraints for your device design Writing a design plan to create your thermal bottle device Creating the device using provided instructions Analyzing provided data to draw conclusions about testing an insulator Writing a short paragraph summarizing your findings Collecting data over time on the thermal output of your device Completing a “Draw and Write” task with a labeled diagram of your device and a short write-up of how it functions Reviewing your findings and designing a new device to improve on your original idea When you have finished the tasks, you will turn in the following items: Your completed “Concept Web” with criteria and constraints Your written design plan for creating your thermal bottle device Your completed “Draw and Write” document To help you do your best, use the rubric to see how you will be graded.
make it sound formal but also like a 12 year old wrote it
Thermal Energy Portfolio Introduction
In this thermal energy portfolio, I will demonstrate my understanding of the concepts related to thermal energy by completing a series of tasks. These tasks include reading about designing a device to maximize thermal energy transfer, recording my thoughts on different criteria and constraints, completing a "Concept Web" to narrow down the criteria and constraints for my device design, writing a design plan for creating my thermal bottle device, creating the device following provided instructions, analyzing data to draw conclusions about testing an insulator, and summarizing my findings in a short paragraph.
Additionally, I will collect data over time on the thermal output of my device and complete a "Draw and Write" task, which involves creating a labeled diagram of my device and explaining how it functions. Finally, I will review my findings and propose improvements for a new and enhanced device.
Upon completing these tasks, I will submit the following items: My completed "Concept Web" highlighting the identified criteria and constraints, my written design plan for the thermal bottle device, and the completed "Draw and Write" document.
To ensure the best possible outcome, I will refer to the provided rubric to understand the grading criteria.
Thank you for your attention. I am excited to embark on this thermal energy portfolio and showcase my knowledge and skills in this subject area.
thats to longgg
Thermal Energy Portfolio Introduction
In this portfolio, I will show what I have learned about thermal energy through various tasks. These tasks include reading about designing a device to maximize thermal energy transfer, sharing my thoughts on different criteria and constraints, creating a "Concept Web" to narrow down design criteria and constraints, writing a design plan for my thermal bottle device, building the device using given instructions, analyzing data to draw conclusions about insulator testing, and summarizing my findings in a short paragraph.
I will also collect data on the thermal output of my device over time and complete a "Draw and Write" task, which involves making a labeled diagram of my device and explaining how it works. Lastly, I will review my findings and come up with ideas to improve my original device.
Once I finish these tasks, I will submit my completed "Concept Web" with criteria and constraints, my written design plan for the thermal bottle device, and the finished "Draw and Write" document.
I will use the rubric to understand how I will be graded and do my best to fulfill all the requirements.
Thank you for giving me this opportunity to demonstrate my understanding of thermal energy.
Title: Thermal Energy Portfolio: Maximizing Thermal Energy Transfer
Introduction:
The purpose of this thermal energy portfolio is to demonstrate our understanding of thermal energy by completing a series of tasks. These tasks include designing a device to maximize thermal energy transfer, exploring different criteria and constraints, creating a design plan, analyzing data, and ultimately, designing an improved version of our original idea. Here is a detailed breakdown of the tasks involved:
1. Reading and Research:
We will begin by educating ourselves on how to design a device that can effectively maximize thermal energy transfer. This will involve researching various strategies and techniques used in the field.
2. Recording Thoughts:
Next, we will reflect on the different criteria and constraints that must be considered when designing our thermal energy device. By jotting down our thoughts, we can ensure that all important aspects are taken into account.
3. Concept Web:
To narrow down our criteria and constraints further, we will create a concept web. This visual tool will help us identify the most crucial elements that should be included in our device's design.
4. Design Plan:
We will write a comprehensive design plan detailing our step-by-step process and the necessary materials to create our thermal bottle device. This plan will serve as a roadmap for us to follow during the construction phase.
5. Device Construction:
Using the provided instructions, we will carefully construct our thermal bottle device. Attention to detail will be essential to ensure its functionality and effectiveness in maximizing thermal energy transfer.
6. Data Analysis:
Upon completion of our device, we will analyze the provided data to draw meaningful conclusions about the effectiveness of different insulating materials. This analysis will help us evaluate the success of our design and identify areas for improvement.
7. Findings Summary:
In a concise paragraph, we will summarize our findings from the data analysis. This summary will highlight the key observations and insights gained during the testing phase.
8. Data Collection:
To further investigate and understand the thermal output of our device, we will collect data over time. By monitoring its performance, we will be able to assess its long-term efficiency and make any necessary adjustments.
9. draw+write Task:
We will engage in a "draw and write" exercise, creating a labeled diagram of our device and providing a brief explanation of how it functions. This activity will help solidify our understanding and communication of our creation.
10. Review and Redesign:
After thorough examination of our findings and reflections on the device's performance, we will use this knowledge to design an improved version. The aim is to address any flaws or limitations identified in our original device.
Submission Requirements:
At the completion of these tasks, we will submit the following items:
- Completed "Concept Web" incorporating criteria and constraints.
- Written design plan for creating our thermal bottle device.
- Completed "Draw and Write" document, featuring a labeled diagram and explanation of device functionality.
To ensure our best effort, we will utilize the rubric provided to understand how our work will be evaluated.
In conclusion, this thermal energy portfolio serves as an opportunity for us to showcase our understanding and practical application of thermal energy concepts. By diligently completing each task, we aim to demonstrate our ability to design and optimize a device for effective thermal energy transfer.