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==Design Solution==
==Design Solution==
Our solution consisted of two of our alternate solutions discussed in section three.  Our most successful solution according to the assigned criterion ended up being “The Seas of Change”.  This solution involved ice melting in a water container and overflowing a model town just next to the original sea level.  As the ice melts in the warmed water the level would rise and destroy/flood the model town along the shoreline created.  This idea has been combined with our Polar Bear idea from the alternate solutions section.  This solution consisted of a model polar bear drowning in a sea as the ice cube he stands upon melts in the warmed water.  Both solutions have warm water as well as ice cubes so the combination of the two solutions was a relatively easy one.
Our most successful solution according to the assigned criteria ended up being “The Seas of Change”.  This solution involved ice melting in a water container and overflowing a model town just next to the original sea level.  As the ice melts in the warmed water the level would rise and destroy/flood the model town along the shoreline created.  This idea has been combined with our Polar Bear idea.  This solution consisted of a model polar bear drowning in a sea as the ice cube he stands upon melts in the warmed water.  Both solutions have warm water as well as ice cubes so the combination of the two solutions was a relatively easy one.


Due to the combination of solutions and changes that arose during supply purchasing the final solution has undergone a few changes.  The model now has four trays so that more students may be involved in the project.  A rotating heat lamp in the middle will represent the sun and provide some heat for the four trays surrounding it.  Each tray will have trapped sections of crushed ice in the corners representing the globe’s polar ice caps along with a model town along an elevated shore.  In addition a polar bear will be sitting on top of one of the ice caps in each tray.  Warm water will be poured into each tray up to the shore level to represent normal sea levels.  As the warm water melts the ice caps the water level will rise.  This will result in the polar bear being submersed in the water as well as the coastal town being flooded.  The design will metaphorically yet accurately represent several of the damaging effects of global warming, including rising seas, animal migration habits being altered, and warming sea waters.
The model has four trays so that more students may be involved in the project.  A rotating heat lamp in the middle will represent the sun and provide some heat for the four trays surrounding it.  Each tray will have trapped sections of crushed ice in the corners representing the globe’s polar ice caps along with a model town along an elevated shore.  In addition a polar bear will be sitting on top of one of the ice caps in each tray.  Warm water will be poured into each tray up to the shore level to represent normal sea levels.  As the warm water melts the ice caps the water level will rise.  This will result in the polar bear being submersed in the water as well as the coastal town being flooded.  The design will metaphorically yet accurately represent several of the damaging effects of global warming, including rising seas, animal migration habits being altered, and warming sea waters.


==Design Costs==
==Design Costs==
Materials and construction costs for the Seas of Change were not big factors in the project. The project’s budget must have been kept under $325, which ended up not being very difficult as shown by the table below.
Materials and construction costs for the Seas of Change were not big factors in the project. The project’s budget must have been kept under $325, which was met successfully, depicted in Table 2.
[[Image:LayoutHours.jpg|right|thumb|550px|Figure 2: Layout of Total Team Work in Hours]]
[[Image:LayoutHours.jpg|right|thumb|550px|Figure 2: Layout of Total Team Work in Hours (as of May 5, 2010 total is 195 hours)]]


=====Table #: Spending sheet=====
=====Table 2: Spending sheet=====
{| class="wikitable"
{| class="wikitable"
|-
|-
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The entire model with four separate trays cost the group $120.97
The entire model with four separate trays cost the group $120.97


The team’s estimated work in hours for this project is depicted in Figure 10. The webpage explaining the construction of the project has not yet been made, thus cannot be a part of this estimation. As of May 5, the total time spend by the Three Mengineers on the Seas of Change is 195 hours. This computes to a little over 65 hours per member.
The team’s estimated work in hours for this project is depicted in Figure 2. As of May 5, the total time spend by the Three Mengineers on the Seas of Change is 195 hours. This computes to a little over 65 hours per member.


==Testing Results==
==Testing Results==
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The two tests were given somewhere between eight and fifteen minutes to let the ice melt and the students fill out the first section of the worksheet.  After each allotted amount of time, the results turned out exactly as desired.  The water level raised a significant amount dragging several model buildings out to sea and leaving the others partially to fully submerge.  The polar bear was also submerged in 3 out of 4 trays during the Fortuna High testing which was also a desired result.  Few issues occurred; however among these were students not filling the water level to the designated beach line and students placing too much ice into the cages. All in all however the results turned out very successfully and needed few modifications post High School testing.
The two tests were given somewhere between eight and fifteen minutes to let the ice melt and the students fill out the first section of the worksheet.  After each allotted amount of time, the results turned out exactly as desired.  The water level raised a significant amount dragging several model buildings out to sea and leaving the others partially to fully submerge.  The polar bear was also submerged in 3 out of 4 trays during the Fortuna High testing which was also a desired result.  Few issues occurred; however among these were students not filling the water level to the designated beach line and students placing too much ice into the cages. All in all however the results turned out very successfully and needed few modifications post High School testing.


==Instructions for Implimentation==
==Instructions for Implementation==
# Separate the students into four even groups and have a member from each group take the following materials to their group’s desk:
# Separate the students into four even groups and have a member from each group take the following materials to their group’s desk:
## 1 coastal model tray
## 1 coastal model tray

Revision as of 07:59, 16 May 2010

Fig 2: Alex In front of finished Models

Introduction

The Seas of Change project models the process of global climate change melting polar ice caps and raising sea levels that will eventually cover cities and destroy polar bear habitat.

Background

The Spring 2010 Engineering 215 Introduction to Design class, as part of the Environmental Resources Engineering program located at Humboldt State University and taught by Lonny Grafman, took upon a project issued by the Redwood Coast Energy Authority. this projects purpose is for engineering students to create a reusable model that can be used by teachers to teach students about either climate change, energy conservation, or renewable energy. The Seas of Change project was created by Alex Albin, Chris Coutinho, and Britlandt Abney to educate middle school students about climate change.

Objective

Fig 1: Our Objective in a Black Box diagram

The objective of our project is to create a model that educates a fifth through eighth grade students about the effects of and possible solutions to climate change. Both the problem of climate change and the research we conducted at a local school aided in the construction of this model. Following the use of this project, the children will be more aware of the problem of climate change and be more motivated to make positive changes in the world around them.

Criteria

The target audience for this project is junior high students. Our mission was to educate them about the way climate change is affecting the planet and life on it while making the information interactive and entertaining. This problem analysis is composed of specifications, criteria, and constraints that were addressed when choosing alternative solutions. After researching information ranging from causes of climate change to middle school psychology, we used the knowledge gained along with information from the client, and compiled a list of criteria and constraints for our model. These lists helped analyze and better understand the problem and come up with a more productive and efficient solution.

Table 1: Criteria in choosing the project
Criteria Weight Description
Safety 10 Doesn’t harm users or viewers
Durability 9 Must last one year with weekly use
Educational Value 9 Gives students as much education as possible while meeting California educational standards
Ease of use 8 Less than 15-20 minute set up time per use
Ease of maintenance 8 Less than 15-20 minute clean up time per use
Level of Fun 7 As fun as possible for age group
Age Appropriate 7 Targets middle school children
Cost 5 As cheap as possible within our $325 budget ($75 per team member and $100 from the RCEA)

Design Solution

Our most successful solution according to the assigned criteria ended up being “The Seas of Change”. This solution involved ice melting in a water container and overflowing a model town just next to the original sea level. As the ice melts in the warmed water the level would rise and destroy/flood the model town along the shoreline created. This idea has been combined with our Polar Bear idea. This solution consisted of a model polar bear drowning in a sea as the ice cube he stands upon melts in the warmed water. Both solutions have warm water as well as ice cubes so the combination of the two solutions was a relatively easy one.

The model has four trays so that more students may be involved in the project. A rotating heat lamp in the middle will represent the sun and provide some heat for the four trays surrounding it. Each tray will have trapped sections of crushed ice in the corners representing the globe’s polar ice caps along with a model town along an elevated shore. In addition a polar bear will be sitting on top of one of the ice caps in each tray. Warm water will be poured into each tray up to the shore level to represent normal sea levels. As the warm water melts the ice caps the water level will rise. This will result in the polar bear being submersed in the water as well as the coastal town being flooded. The design will metaphorically yet accurately represent several of the damaging effects of global warming, including rising seas, animal migration habits being altered, and warming sea waters.

Design Costs

Materials and construction costs for the Seas of Change were not big factors in the project. The project’s budget must have been kept under $325, which was met successfully, depicted in Table 2.

Figure 2: Layout of Total Team Work in Hours (as of May 5, 2010 total is 195 hours)
Table 2: Spending sheet
Item Cost
Gas $ 44.58
Polar Bear $ 3.87
Plastic Paint Trays $ 8.68
Metal Screen $ 6.50
Popsicle sticks $ 0.40
Spray Paint $ 21.36
Nippy Cutter $ 6.53
Food for thought $ 6.03
Pitcher $ 5.99
Epoxy $ 21.94

The entire model with four separate trays cost the group $120.97

The team’s estimated work in hours for this project is depicted in Figure 2. As of May 5, the total time spend by the Three Mengineers on the Seas of Change is 195 hours. This computes to a little over 65 hours per member.

Testing Results

The design was tested at Fortuna High School on Monday April 26th, as well as Wednesday May 5th for the purposes of creating a video for this project. In both occasions the trays were set up with ice in the cages and water filled up to the designated sand level now marked by spray painted grip tape (to simulate the sand of a beach). In addition, ice was placed into the water as well to represent floating ice bergs. After the water had been added to each of the four trays, time was given for the ice to melt. The kids breathed on the ice during the waiting period to speed along the process and metaphorically represent the anthropogenic causes of climate change. The desired results were that the water level would rise to a point that it covered the town.

The two tests were given somewhere between eight and fifteen minutes to let the ice melt and the students fill out the first section of the worksheet. After each allotted amount of time, the results turned out exactly as desired. The water level raised a significant amount dragging several model buildings out to sea and leaving the others partially to fully submerge. The polar bear was also submerged in 3 out of 4 trays during the Fortuna High testing which was also a desired result. Few issues occurred; however among these were students not filling the water level to the designated beach line and students placing too much ice into the cages. All in all however the results turned out very successfully and needed few modifications post High School testing.

Instructions for Implementation

  1. Separate the students into four even groups and have a member from each group take the following materials to their group’s desk:
    1. 1 coastal model tray
    2. 1 polar bear
    3. A set of Lego™ building pieces (marked to accompany separate trays)
    4. 2 cups of ice
  2. Place Lego buildings in marked areas on model shoreline
  3. Using the water jug, fill each tray with water up the edge of the model shoreline.
  4. Place ice in caged areas (Do not top off the cages, to prevent spillage).
  5. Have students fill out section one on the worksheet as the ice begins to melt.
  6. As the students fill out section one of the questionnaire, have a student breathe on the ice at a reasonable pace, to speed up the melting process.
  7. As soon as the students are done with section one, have them observe the trays.
  8. After observing the trays, have the students answer the remaining questions on the worksheet.
  9. Discuss the questions with the students.
  10. Carefully clean up and place the pieces back in the box as neat as or neater than originally found.
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