320 likes | 401 Views
Earth, Our Home and Classroom: Science Outside the Box. Title of presentation. umanitoba.ca. Research indicates that the traditional method of teaching science in schools fails to engage the majority of students. (Calabrese, 1998).
E N D
Earth, Our Home and Classroom: Science Outside the Box Title of presentation umanitoba.ca
Research indicates that the traditional method of teaching science in schools fails to engage the majority of students. (Calabrese, 1998)
With a core built on the use of oral communication, as well as symbols and abstract ideas, students justly find this boring, impersonal and slighting of their world and potential career goals (Aarti, 2012). ex. worksheets, diagrams (without context)
Non Traditional Classrooms Our experience indicates that when children are exposed to the world of science beyond the traditional K-12 classroom, a positive view of science is promoted and engagement in learning increases.
Calabrese (1998) was also able to conclude that meaningful science learning can occur when the same students are involved in non-school science activities, or simply when a child interacts with the natural world (Ramey-Gassert, 1997). • Our goal is to increase this meaningful science learning by transplanting these natural world, non-school science activities, into our pedagogy.
Workshop Breakdown • Introduction (10 minutes) ✔ • Activity #1 (10 minutes) • Water Molecules on the Move! • Activity #2 (10 minutes) • Plastic Foam Fun! • Activity #3 (10 minutes) • Zoomy! • Question and Answer (5 minutes)
Activity #1 Water Molecules on the Move!
Water Station #1 Method: Step 1 Step 2 Drop 2 drops blue colour into cold water. Record time to fully disperse. Record observations. Drop 2 drops blue colour into warmwater. Record time to fully disperse. Record observations.
Water Station #2 Method: Step 1 Step 2 • Take the cold water beaker and cover the opening with the plastic card. • Flip the beaker upside down while keeping the card in place to prevent water from spilling. • Line up both beaker openings. Hold in place, remove card. • Record observations. • Take the hot water beaker and cover the opening with the plastic card. • Flip the beaker upside down while keeping the card in place to prevent water from spilling. • Line up both beaker openings. Hold in place, remove card. • Record observations.
Relevant SLO’s • 7-2-01 Use appropriate vocabulary related to their investigations of the particle theory of matter. • Include: boiling and melting points, pure substance, scientific theory, particle theory of matter, temperature, heat, conduction, convection, radiation, mixture, solution, mechanical mixture, homogeneous, heterogeneous, solutes, solvents, solubility, concentration, dilute, concentrated, saturated, unsaturated, terms related to forms of energy. GLO: C6, D3, E4 • 8-3-01 Use appropriate vocabulary related to their investigations of fluids. Include: fluid, viscosity, flow, density, particle theory of matter, buoyant force, pressure, compressibility, hydraulic, pneumatic. GLO: C6, D3, E1 • 8-3-05 Plan and conduct experiments to determine factors that affect flow within a given system. Examples: temperature, pressure, tube diameter... GLO: C1, C2, D3, E2
Relevant SLO’s cont… 8-3-07 Illustrate, using the particle theory of matter, the effects of temperature change on the density of solids, liquids, and gases. GLO: A2, C6, D3, E4 8-3-10 Explain, using the particle theory of matter, the relationships among pressure, volume, and temperature of liquid and gaseous fluids. GLO: A2, D4 8-4-01 Use appropriate vocabulary related to their investigations of water systems. Include: heat capacity, fresh water, salt water, convection, Coriolis effect, global water cycle, drainage system, watershed, continental divide, erosion, deposition, flow rate, tides, terms related to water treatment. GLO: C6, D5
Activity #2 How many plastic foam cups can you fit in a mug?
Method • Step 1: In the shallow dish pour a small amount of acetone. • Step 2: Add the plastic foam cup to the dish. • Step 3: Record observations. How would you expand this further with your class?
Relevant SLO’s 5-1-15 Explain how human health may be affected by lifestyle choices and natural- and human-caused environmental factors. Include: smoking and poor air quality may cause respiratory disorders; unhealthy eating and physical inactivity may lead to diabetes or heart disease; prolonged exposure to the Sun can cause skin cancer. GLO: B3, B5, C4, D1 5-2-01 Use appropriate vocabulary related to their investigations of properties of, and changes in, substances. Include: characteristic, property, substance, matter, volume, state, solid, liquid, gas, reversible and non-reversible changes, physical change, chemical change, chemical product, raw material. GLO: C6, D3 5-2-03 Investigate to determine how characteristics and properties of substances may change when they interact with one other. Examples: baking soda in vinegar produces agas; adding flour to water produces a stickypaste... GLO: C2, D3, E3
Relevant SLO’s cont… 5-2-09 Explore to identify reversible and non-reversible changes that can be made to substances. Examples: reversible — folding paper, mixingbaking soda and marbles; non-reversible —cutting paper, mixing baking soda and vinegar... GLO: C2, D3, E3 5-2-10 Recognize that a physical change alters the characteristics of a substance without producing a new substance, and that a chemical change produces a new substance with distinct characteristics and properties. GLO: D3, E3 5-2-11 Observe examples of changes in substances, classify them as physical or chemical changes, and justify the designation. Examples: physical — bending a nail, choppingwood, chewing food; chemical — rusting of anail, burning wood, cooking food... GLO: C2, D3, E3
Relevant SLO’s cont… 5-2-12 Identify potentially harmful chemical products used at home, and describe practices to ensure personal safety. Include: use of products with parental supervision, recognition of safety symbols, procedures to follow in case of an emergency, proper storage of chemical products.GLO: B1, C1, D3 7-2-23 Discuss the potential harmful effects of some substances on the environment, and identify methods to ensure their safe use and disposal. Examples: pollution of groundwater fromimproper disposal of paints and solvents; pollution of the atmosphere by car exhaust... GLO: B1, B3, B5, C1 8-4-17 Identify substances that may pollute water, related environmental and societal impacts of pollution, and ways to reduce or eliminate effects of pollution. GLO: B2, B3, B5, D5
Relevant SLO’s cont… S1-2-12 Differentiate between physical and chemical changes. GLO: D3, E1, E3 S1-2-13 Experiment to determine indicators of chemical change. Examples: colour change, production of heatand/or light, production of a gas or precipitate ornew substance... GLO: C2, D3, E3 S1-2-14 Investigate technologies and natural phenomena that demonstrate chemical change in everyday situations. Examples: photography, rusting, photosynthesis,combustion, baking…GLO: A3, A5, B1, B2
Activity #3 Zoom, Zoom, Zoom!
ZoomyMethod: • Step 1: Ensure the Zoomy is on. • Step 2: Remove the petals from the flower. • Step 3: Slice from the top of the stigma to the bottom of the ovary. • Step 4: Explore. • Step 5: Locate and take pictures of specified plant parts. • NOTE: PC’s: use the camera button on Zoomy Mac: use Photo Booth
Relevant SLO’s 6-1-07 Recognize that many living things are difficult to see with the unaided eye, and observe and describe some examples. GLO: C2, D1, E1 7-1-13 Demonstrate proper use and care of the microscope to observe micro-organisms.Include: preparing wet mounts beginning with the least powerful lens; focussing; drawingspecimens; indicating magnification. GLO: C1, C2, C7
Relevant SLO’s cont… 2-2-03 Investigate and compare properties of familiar solids. Include: have mass/weight, take up space, maintain their shape. GLO: C2, D3, E1 2-2-05 Identify similarities and differences among properties of familiar solids and liquids.GLO: D3, E1 2-2-09 Compare different materials with respect to their capacity to absorb liquids, and describe how this capacity determines their uses. GLO: B1, C2, D3
Relevant SLO’s cont… S2-1-08 Observe and document a range of organisms that illustrate the biodiversity within a local or regional ecosystem. GLO: D2, E2, E3 B11-2-01: Identify major structures and functions of the human digestive system from a diagram, model, or specimen. (GLO: D1) Include: tongue, teeth, salivary glands, epiglottis, esophagus, pharynx, sphincters, stomach, small intestine, large intestine, rectum, anus, appendix, liver, gallbladder, pancreas, and uvula B11-0-S3: Demonstrate work habits that ensure personal safety, the safety of others, and concern for the environment. (GLOs: B3, B5, C1, C2) Examples: application of Workplace Hazardous Materials Information Systems (WHMIS), proper disposal of chemical or biological specimens… B11-0-S4: Select and use scientific equipment appropriately and safely. (GLOs: C1, C2) Examples: microscopes, dissection equipment, prepared slides…
Expanding this further: Denver’s Brown Cloud: Inversion:
Using first hand explorations, children would be able to apply existing knowledge, combine this with what was learned, and display their innate curiosity about how the world works. Children will become engaged in learning and see that science is not only found in their classroom, it surrounds them in their own world.
scienceoutsidethebox.weebly.com Questions?