TaskDocumentationThe recorded notesand discussions ofideas, research,and design choicesmade during thesolar cookerproject.GroupCollaborationWorking with teammembers to divideresponsibilities,share research, andrefine the design ofa product like asolar cooker.ReflectorsDevices attachedto a solar cookerthat redirect extrasunlight into theenclosed space tomaximize heatgain.OnlineResearchThe use of internet-based tools andresources to finddata and studiesabout solar cookersand relatedtechnologies.InquiryThe systematicprocess of askingquestions andconducting research(often online) togather informationabout how a productworks.AbsorberPlateA dark, heat-absorbing surfaceinside a solarcooker thatconverts incomingsunlight into heatenergy.ConductionThe transfer of heatthrough direct contactbetween materials,minimized in solarcooker design toprevent unwantedheat loss.EnergyConversionThe process oftransformingsunlight intousable heatenergy within asolar cooker.HeatGainThe increase inthermal energy insidethe solar cooker as aresult of effectiveabsorption andconcentration ofsunlight.DiagramLabelingThe practice ofclearly marking andidentifying differentparts (e.g.,absorber plate,reflectors) on asolar cooker sketch.RadiationThe process bywhich heat isemitted from warmsurfaces; in solarcookers, controllingradiation is key tomaintaining heat.EngineeringDesignA systematic processwhere engineersresearch, plan, andcreate a product (likea solar cooker) thatmeets specificfunctionalrequirements.ReportWritingThe practice of clearlycommunicatingresearch findings in awritten form, such asexplaining the solarcooker’s workingprinciple and itsadvantages.TransparentCoverA layer of glass orplastic that allowssunlight to enterthe solar cookerwhile retainingheat inside via thegreenhouse effect.ConvectionThe movement ofheat by thecirculation of air,which can causeheat loss if a solarcooker is notproperly insulated.InsulatingMaterialMaterials used in asolar cooker tolimit heat loss viaconduction orconvection,enhancing overallefficiency.DesignSketchA two-dimensional orthree-dimensionaldrawing created tovisually represent thesolar cooker’s layoutand key components.WorkingPrincipleThe core scientificconcept that explainshow a solar cookeroperates, includingenergy conversionand the greenhouseeffect.EnvironmentalBenefitThe reduction ofcarbon footprint andharmful emissionsresulting from usinga renewable energysource (sunlight) ina solar cooker.SunlightThe natural andfree source ofenergy that iscaptured andused by a solarcooker.SolarCookerA cooking devicethat harnesses theenergy of sunlightto convert it intoheat for cooking orpasteurizing foodand drinks.GreenhouseEffectA phenomenon wherea transparent cover(glass or plastic) trapsheat within anenclosed space,increasing thetemperature—used insolar cookers to boosteffectiveness.HeatRetentionThe capability of asolar cooker tominimize heat loss,ensuring that thecaptured heatremains within thesystem for cooking.EconomicalBenefitA positive aspectwhere the use of freesunlight in a solarcooker reducesenergy costs andminimizes additionalexpenses.AdvantageAnalysisThe evaluation of thebenefits (economical,environmental,health) of using asolar cookercompared toconventional cookingmethods.TaskDocumentationThe recorded notesand discussions ofideas, research,and design choicesmade during thesolar cookerproject.GroupCollaborationWorking with teammembers to divideresponsibilities,share research, andrefine the design ofa product like asolar cooker.ReflectorsDevices attachedto a solar cookerthat redirect extrasunlight into theenclosed space tomaximize heatgain.OnlineResearchThe use of internet-based tools andresources to finddata and studiesabout solar cookersand relatedtechnologies.InquiryThe systematicprocess of askingquestions andconducting research(often online) togather informationabout how a productworks.AbsorberPlateA dark, heat-absorbing surfaceinside a solarcooker thatconverts incomingsunlight into heatenergy.ConductionThe transfer of heatthrough direct contactbetween materials,minimized in solarcooker design toprevent unwantedheat loss.EnergyConversionThe process oftransformingsunlight intousable heatenergy within asolar cooker.HeatGainThe increase inthermal energy insidethe solar cooker as aresult of effectiveabsorption andconcentration ofsunlight.DiagramLabelingThe practice ofclearly marking andidentifying differentparts (e.g.,absorber plate,reflectors) on asolar cooker sketch.RadiationThe process bywhich heat isemitted from warmsurfaces; in solarcookers, controllingradiation is key tomaintaining heat.EngineeringDesignA systematic processwhere engineersresearch, plan, andcreate a product (likea solar cooker) thatmeets specificfunctionalrequirements.ReportWritingThe practice of clearlycommunicatingresearch findings in awritten form, such asexplaining the solarcooker’s workingprinciple and itsadvantages.TransparentCoverA layer of glass orplastic that allowssunlight to enterthe solar cookerwhile retainingheat inside via thegreenhouse effect.ConvectionThe movement ofheat by thecirculation of air,which can causeheat loss if a solarcooker is notproperly insulated.InsulatingMaterialMaterials used in asolar cooker tolimit heat loss viaconduction orconvection,enhancing overallefficiency.DesignSketchA two-dimensional orthree-dimensionaldrawing created tovisually represent thesolar cooker’s layoutand key components.WorkingPrincipleThe core scientificconcept that explainshow a solar cookeroperates, includingenergy conversionand the greenhouseeffect.EnvironmentalBenefitThe reduction ofcarbon footprint andharmful emissionsresulting from usinga renewable energysource (sunlight) ina solar cooker.SunlightThe natural andfree source ofenergy that iscaptured andused by a solarcooker.SolarCookerA cooking devicethat harnesses theenergy of sunlightto convert it intoheat for cooking orpasteurizing foodand drinks.GreenhouseEffectA phenomenon wherea transparent cover(glass or plastic) trapsheat within anenclosed space,increasing thetemperature—used insolar cookers to boosteffectiveness.HeatRetentionThe capability of asolar cooker tominimize heat loss,ensuring that thecaptured heatremains within thesystem for cooking.EconomicalBenefitA positive aspectwhere the use of freesunlight in a solarcooker reducesenergy costs andminimizes additionalexpenses.AdvantageAnalysisThe evaluation of thebenefits (economical,environmental,health) of using asolar cookercompared toconventional cookingmethods.

Principles of Eng 1B Module 1 Review - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. The recorded notes and discussions of ideas, research, and design choices made during the solar cooker project.
    Task Documentation
  2. Working with team members to divide responsibilities, share research, and refine the design of a product like a solar cooker.
    Group Collaboration
  3. Devices attached to a solar cooker that redirect extra sunlight into the enclosed space to maximize heat gain.
    Reflectors
  4. The use of internet-based tools and resources to find data and studies about solar cookers and related technologies.
    Online Research
  5. The systematic process of asking questions and conducting research (often online) to gather information about how a product works.
    Inquiry
  6. A dark, heat-absorbing surface inside a solar cooker that converts incoming sunlight into heat energy.
    Absorber Plate
  7. The transfer of heat through direct contact between materials, minimized in solar cooker design to prevent unwanted heat loss.
    Conduction
  8. The process of transforming sunlight into usable heat energy within a solar cooker.
    Energy Conversion
  9. The increase in thermal energy inside the solar cooker as a result of effective absorption and concentration of sunlight.
    Heat Gain
  10. The practice of clearly marking and identifying different parts (e.g., absorber plate, reflectors) on a solar cooker sketch.
    Diagram Labeling
  11. The process by which heat is emitted from warm surfaces; in solar cookers, controlling radiation is key to maintaining heat.
    Radiation
  12. A systematic process where engineers research, plan, and create a product (like a solar cooker) that meets specific functional requirements.
    Engineering Design
  13. The practice of clearly communicating research findings in a written form, such as explaining the solar cooker’s working principle and its advantages.
    Report Writing
  14. A layer of glass or plastic that allows sunlight to enter the solar cooker while retaining heat inside via the greenhouse effect.
    Transparent Cover
  15. The movement of heat by the circulation of air, which can cause heat loss if a solar cooker is not properly insulated.
    Convection
  16. Materials used in a solar cooker to limit heat loss via conduction or convection, enhancing overall efficiency.
    Insulating Material
  17. A two-dimensional or three-dimensional drawing created to visually represent the solar cooker’s layout and key components.
    Design Sketch
  18. The core scientific concept that explains how a solar cooker operates, including energy conversion and the greenhouse effect.
    Working Principle
  19. The reduction of carbon footprint and harmful emissions resulting from using a renewable energy source (sunlight) in a solar cooker.
    Environmental Benefit
  20. The natural and free source of energy that is captured and used by a solar cooker.
    Sunlight
  21. A cooking device that harnesses the energy of sunlight to convert it into heat for cooking or pasteurizing food and drinks.
    Solar Cooker
  22. A phenomenon where a transparent cover (glass or plastic) traps heat within an enclosed space, increasing the temperature—used in solar cookers to boost effectiveness.
    Greenhouse Effect
  23. The capability of a solar cooker to minimize heat loss, ensuring that the captured heat remains within the system for cooking.
    Heat Retention
  24. A positive aspect where the use of free sunlight in a solar cooker reduces energy costs and minimizes additional expenses.
    Economical Benefit
  25. The evaluation of the benefits (economical, environmental, health) of using a solar cooker compared to conventional cooking methods.
    Advantage Analysis