Materials Needed Part 1: Light and Optics
Transcription
Materials Needed Part 1: Light and Optics
Part 1: Light and Optics Making Your Own Solar Oven Materials Needed Cone Solar Oven: 2 large sheets of black poster board aluminum foil black construction paper cardboard box Pizza Box Solar Oven: pizza box newspaper aluminum foil black construction paper scissors plastic wrap tape book Also: resealable plastic baggies graham crackers marshmallows chocolate bar 3 thermometers Instructions In groups of two you will make two different types of solar ovens (you are changing the shape of the reflective surface), test them and answer the analysis questions. Cone Solar Oven 1. To make the Cone Solar Oven, glue two pieces of black poster board together to make one long piece. Cover one side with aluminum foil. 2. Bend the poster board, foil side in, into a cone shape and tape it together. The cone should still be open on both ends. 3. Put black construction paper in the bottom of a cardboard box. This dark surface will absorb heat into the bottom of the box. 4. Prop the cone in the box with the narrower opening pointing down. 5. Put a graham cracker with a marshmallow on top of it in a resealable baggie. Chocolate melts faster than marshmallows, so it works best to cook the marshmallow first and add the chocolate later. 6. Put the baggie on the bottom of the box in the center of the cone. Pizza Solar Oven 7. To make the Pizza box Solar Oven, put a few sheets of newspaper in the bottom of a pizza box. Cover the newspaper with black construction paper to absorb heat. 8. Cut a flap out of the top of the pizza box two inches from the sides and front but attached in the back. Bend it back and cover the inside of the flap with aluminum foil. 9. Tape plastic wrap across the hole left by the flap. 10. Put a graham cracker with a marshmallow on it on top of the black paper in the bottom of the box. Close the box. 11. Use a book or tape to prop open the flap so that the aluminum foil can catch the sunlight and reflect it onto the marshmallow. 12. Make an extra s'more to be the control. Don't put this one in a Solar Cooker. If the control s'more cooks as well as the ones in the Solar Ovens, you will know that the Solar Ovens aren't working better than the sun by itself. Predict how long you think it will take to cook the s'more and which cooker will get hotter and cook faster. 13. You need the sun to make your Solar Ovens work, so you'll need to do your cooking outside. 14. Once you set up your Solar Cookers outside, put a thermometer inside each one and one on the control s'more. This will help you compare the temperature in the Solar Oven to the temperature outside. If the Solar Ovens are working, it will be hotter inside the cookers than it is outside on the control. 15. Check your Solar Ovens every 15 minutes to make sure they aren't in the shade. If the sun moves, move the Ovens so they stay in the sun. 16. Time how long it takes to cook the s'mores. Which coven got hotter? Which one baked more quickly? Why do you think it was faster? When your marshmallows are almost done, add the chocolate to the s'mores, wait a minute for it to get soft, and enjoy a tasty treat! Table of Results for Comparing Solar Ovens: Method of Heating Cone solar oven Pizza Box solar oven Control (no oven) Temp. at 15min Temp. at 30min Temp. at Temp. at 45min 60min Planning and Analysis Questions: 1. Write a testable question and hypothesis for this lab. 2. What are the independent and the dependent variables? 1. Explain why we used black paper on the bottom of the ovens? 2. Explain how the 2 different solar ovens work. Use ray diagrams in your explanation, talk about the type of mirror (aluminum foil part) you used in each. 3. Which oven cooked faster? Explain why you think it cooked faster. 4. What did the plastic wrap or plastic baggie do? Categories Knowledge and Understanding -use appropriate terminology related to light and optics, Application -construction of solar cooker that uses mirrors (aluminum foil) Communication -expression and organization of ideas and information (e.g., clear expression, logical organization) in reflective writing Thinking -Testable Question, Variables, Hypothesis Thinking -analysis questions Constructing a Solar Cooker Level 1 Level 2 Level 3 (50 - 59%) (60 - 69%) (70 - 79%) -demonstrates limited understanding of terminology -demonstrates considerable understanding of terminology -demonstrates thorough understanding of terminology -constructs an -constructs an optical device with optical device with limited some effectiveness effectiveness -constructs an optical device with considerable effectiveness -constructs an optical device with a high degree of effectiveness -expresses and organizes ideas and information with limited effectiveness -expresses and organizes ideas and information with some effectiveness -expresses and organizes ideas and information with considerable effectiveness -expresses and organizes ideas and information with a high degree of effectiveness -shows some understanding of the cause and effect relationship -independent and dependent variables are qualitative in nature -hypothesis is not written in the “if” “then” format but makes a prediction -shows a good understanding of the cause and effect relationship -independent and dependent variables are quantitative in nature -hypothesis is written in the “if” “then” format and makes a prediction -shows a thorough understanding of the cause and effect relationship -independent and dependent variables are quantitative and precisely defined -hypothesis is written in the “if” “then” format with a well defined prediction -shows limited understanding of the cause and effect relationship -independent and dependent variables are not measurable - hypothesis is vague and shows no prediction -demonstrates some understanding of terminology Level 4 (80 - 100%) -provides some -provides limited -provides sufficient -provides rich sufficient answers answers to answers to analysis answers to analysis to analysis analysis questions questions questions questions Background information The Sun continuously provides Earth with tremendous amounts of solar energy, most of which comes in the form of visible light. Sunlight, when transformed into usable heat, can be a practical source of energy for everyday jobs such as cooking food, heating water, or warming houses. A solar cooker is an insulated box that traps the heat of the Sun for cooking food. The most efficient way to transform sunlight into heat is to shine lots of sunlight onto a dark surface. When light energy (also called radiant energy) is absorbed by an object, it is changed to heat energy. Darker objects absorb more and reflect fewer of the visible light waves that hit them than lighter objects do. It follows that while dull black objects readily absorb more light, shiny silver ones reflect more. Mirrors or other reflective materials including aluminum foil, then, can catch more light and redirect it to the cooking surface, where the energy in the light can be used. The direct and redirected sunlight is converted to heat. Some of the energy heats the air. By using a plastic or glass cover that allows light in but prevents heat from escaping, the energy that arrives as radiation can be used to cook food -- such as the "s'more" featured in the ZOOM segment -- much like a convection oven cooks things by circulating hot air through the cooking chamber. Both of the solar oven designs in this demonstration use similar materials, though the cone-shaped light reflector exposes additional surface area to the light, amplifying the amount of light it can capture, and redirecting that light more specifically. The result: Its cooking surface is raised to a higher temperature, melting the marshmallow and chocolate more thoroughly than the pizza box design does. http://www.teachersdomain.org/resource/phy03.sci.phys.mfe.zsolar/ Part 2: Chemistry Choose one of the following projects: 1. Chemistry in Baking 1. Choose a recipe that uses chemical reactions that make the baked item rise. 2. Describe in ½ page paragraph, the ingredients that react and how they work. Design an experiment that changes how your baked item rises. Include a table of observations, testable question, independent variable, dependent variable and hypothesis. Comment on your results and make a conclusion. 3. Make the recipe with and without the changes and bring in a sample of each. The following resources may be used to complete the above assignment along with notes we took in class and the baking lab we did during the chemistry unit. 1. Chemistry of Baking 2. Making Bread 3. How Stuff Works – Bread Categories Knowledge and Understanding -use appropriate terminology related to chemistry of baking Application -design and table of observations show knowledge of chemical reactions in baking Communication -expression and organization of ideas and information (e.g., clear expression, logical organization) Thinking -Testable Question, Variables, Hypothesis Thinking -analysis & observations Chemistry of Baking Level 1 Level 2 (50 - 59%) (60 - 69%) Level 3 (70 - 79%) -demonstrates limited understanding of terminology -demonstrates some understanding of terminology - design shows limited effectiveness - design shows - design shows considerable some effectiveness effectiveness - design shows a high degree of effectiveness -expresses and organizes ideas and information with limited effectiveness -expresses and -expresses and organizes ideas and organizes ideas and information with information with considerable some effectiveness effectiveness -expresses and organizes ideas and information with a high degree of effectiveness -shows some understanding of the cause and effect relationship -independent and dependent variables are qualitative in nature -hypothesis is not written in the “if” “then” format but makes a prediction -shows a thorough understanding of the cause and effect relationship -independent and dependent variables are quantitative and precisely defined -hypothesis is written in the “if” “then” format with a well defined prediction -shows limited understanding of the cause and effect relationship -independent and dependent variables are not measurable - hypothesis is vague and shows no prediction -provides limited analysis and observations -provides some analysis and observations -demonstrates considerable understanding of terminology Level 4 (80 - 100%) -shows a good understanding of the cause and effect relationship -independent and dependent variables are quantitative in nature -hypothesis is written in the “if” “then” format and makes a prediction -demonstrates thorough understanding of terminology -provides sufficient -provides rich analysis and analysis and observations observations 2. SNC2P Chemical Compounds Name: _______________ As you have learned in this unit, chemical compounds are used in everyday life. The purpose of this assignment is for you to study a unique chemical compound and present the information to your peers in a poster. From the following list, choose 1 of the chemical compounds. Chemical Compound (binary) Nitrogen monoxide Nitrogen dioxide Sulphur dioxide Calcium chloride Sodium chloride Muriatic acid Ozone Hydrogen peroxide Carbon monoxide Carbon dioxide methanol Propane Nitrous oxide Zinc Chloride Chemical Compound (polyatomic) Ammonium nitrate Sodium hypochlorite Nitric acid Muriatic acid Acetone methanol Magnesium sulphate Calcium hydroxide One of its many uses Involved in the transmission of nerve impulses. A rocket fuel Antiseptic and used in wine making Major component of road salt Food preservative Heavy-duty masonry cleaning. Protects planet from UV radiation Antiseptic & disinfectant Burns without smoke and produces a large amount of heat Provides the fizz in pop and beer Fuel additive Fuel Pain relief during dental surgery Cleaning copper One of its many uses Fertilizer component Component of bleach Production of explosives like trinitrotoluene (T.N.T.) Heavy-duty masonry cleaning. Nail polish remover Fuel additive To correct magnesium deficiencies in soil Raise the pH of acidic water Refer to the format and marking scheme for this assignment on the back of this page The following websites will help you with your research: www.wikipedia.com http://www.sciencelab.com (for MSDS sheets) www.google.com (search MSDS + chemical name) Your poster must include the following components. Knowledge (15 marks) Marking Scheme A The compound’s proper chemical name and any common names it may have. 0 1 2 B Hand-drawn molecular model that clearly shows the different elements that makes up the compound Example red to represent hydrogen; black for carbon etc. Remember to include a key 0 1 2 C Write a word equation showing how this compound would react with other chemicals. (hint: choose a synthesis, or decomposition, or combustion, single or double displacement reaction) 0 1 2 D Convert the word equation into a skeleton (unbalanced) chemical equation 0 1 2 E Re-write the skeleton chemical equation and make it a balanced chemical equation 0 1 2 F Explain the proper storage, use and disposal of this chemical. 0 1 2 3 3 4 STSE Application (6 marks) G Explain how this item is used in the home or industry (other than the use already provided) 0 1 2 3 H Explain the implications of this compound on the 0 environment (consider: disposal, effect on ecosystem, effect on land, water and/or air) 1 2 3 1 2 3 Communication (4 marks) I Poster or Ppt’s neatness & organization 0 4 Part 3: Biology Smoking and Health Care Should people who smoke pay the same as everyone else for health care, or should they pay extra to cover the additional costs of treating smoking-related diseases? Answer the question in a one page essay using the following: 1. Research health problems related to smoking and the costs of treating them. (2-3 paragraphs) 2. Find out why Canada’s health care is funded the way it is. (1 paragraph) 3. Consider pros and cons of asking smokers to pay more for health care (use the following questions to help). (2 paragraphs) What rights does one person have? What are the rights of people as a society? Should all people be responsible for their own actions? Since most smokers became addicted to tobacco and nicotine products before 16, why should they now be held responsible for actions adults did not prevent? Should the companies that profit from tobacco sales be held responsible for any added costs to health care? Is it possible to identify the exact cause of a disease? Should smoking be treated differently from other addictions? Smokers are not the only people who take risks. Should people who suffer sports injuries also pay more? What about people who ride motorcycle, are obese or who consume alcohol? 4. Make a final recommendation summarizing your findings and opinions. (1 paragraph) 5. Include a resource list. You may use following resources and other reputable websites: smoking and health: http://bodyandhealth.canada.com/channel_sections.asp?channel_id=2022&relation_ id=16630 http://www.hc-sc.gc.ca/hc-ps/tobac-tabac/youth-jeunes/index-eng.php http://kidshealth.org/teen/drug_alcohol/tobacco/smoking.html Health care: http://www.hc-sc.gc.ca/hcs-sss/index-eng.php http://www.civilization.ca/cmc/exhibitions/hist/medicare/medic01e.shtml Smoking and Health Care Categories Level 1 Level 2 Level 3 Level 4 (50 - 59%) (60 - 69%) (70 - 79%) (80 - 100%) Knowledge / Understanding -use appropriate terminology related to the effects smoking on health demonstrates limited understanding of terminology demonstrates some understanding of terminology demonstrates considerable understanding of terminology demonstrates thorough understanding of terminology Use of critical/creative thinking processes, skills, and strategies (e.g., analysing, interpreting, problem solving, evaluating, forming and justifying conclusions on the basis of evidence uses critical/ creative thinking processes, skills, and strategies with limited effectiveness uses critical/ creative thinking processes, skills, and strategies with some effectiveness uses critical/ creative thinking processes, skills, and strategies with considerable effectiveness uses critical/ creative thinking processes, skills, and strategies with a high degree of effectiveness Communication -expression and organization of ideas and information (e.g., clear expression, logical organization) -expresses and organizes ideas and information with limited effectiveness -expresses and organizes ideas and information with some effectiveness -expresses and organizes ideas and information with considerable effectiveness -expresses and organizes ideas and information with a high degree of effectiveness Proposing courses of practical action to deal with problems relating to science, technology, society, and the environment (Conclusion) proposes courses of practical action of limited effectiveness proposes courses of practical action of some effectiveness proposes courses of practical action of considerable effectiveness proposes highly effective courses of practical action Part 4: |Earth’s Dynamic Climate A Personal Climate Change Action Plan 1. Assessing my Carbon Footprint Use an online carbon footprint calculator. http://www.go-beyond.ca/carbon-footprint-calculator Record your results for the following categories. daily commute, long distance travel, shelter, food using the personal green plan handouts; http://www.go-beyond.ca/uploads/PersonalGreenPlan_2010.pdf 2. For each category, list ways you can reduce your carbon footprint. (use the checklist on the personal green plan) Be realistic Include things you can start doing right away Include actions you can do often and document Include a variety of actions 3. Circle at least 10 actions you will try to do in the next week (ie. eat 2 vegetarian meals) and make a calendar telling when you will do these actions. Some should be every day (ie. turn off the lights when you leave the room) actions. 4. Begin doing your action plan and record daily in a journal (you can include pictures). You need to hand in at least 7 journal entries. 5. Analyze and evaluate: a) Why did you choose the actions you did? b) Which activities were the easiest, the most difficult? c) How successful were you in reducing your carbon footprint? Use the carbon footprint calculator again to see the differences your actions will make if you continue and record on your personal green plan . d) Which actions will you continue? e) What recommendations would you make to your family, your friends, your school? 6. Hand in your Green plan (filled in), your journal and your answers to the questions above. Climate Change Action Plan Categories Level 1 (50 - 59%) Level 2 Level 3 Level 4 (60 - 69%) (70 - 79%) (80 - 100%) Knowledge / Understanding -demonstrates and understanding of how your actions contribute to greenhouse gas emissions and what actions reduce your carbon footprint demonstrates limited understanding of terminology demonstrates some understanding of terminology demonstrates considerable understanding of terminology demonstrates thorough understanding of terminology Use of critical/creative thinking skills to formulate a varied set of personal actions that reduce your carbon footprint thinking processes, skills, uses critical/ creative thinking processes, skills, and strategies with limited effectiveness uses critical/ creative thinking processes, skills, and strategies with some effectiveness interpreting, problem uses critical/ creative thinking processes, skills, and strategies with considerable effectiveness uses critical/ creative thinking processes, skills, and strategies with a high degree of effectiveness Communication -expression and organization of ideas and information (e.g., clear expression, logical organization) -expresses and organizes ideas and information with limited effectiveness -expresses and organizes ideas and information with some effectiveness -expresses and organizes ideas and information with considerable effectiveness -expresses and organizes ideas and information with a high degree of effectiveness Application - plan shows -Carries out their limited action plan consistently effectiveness over a period of time - plan shows some effectiveness - plan shows considerable effectiveness - plan shows a high degree of effectiveness -provides some analysis and observations -provides sufficient analysis and observations -provides rich analysis and observations Thinking -analysis & observations -provides limited analysis and observations