Misconception: If an object is at rest, no forces are acting on the object. (http:\/\/newyorkscienceteacher.com\/sci\/pages\/miscon\/phy.php)<\/p>\n
Instruction Framework: T-GEM<\/p>\n
Digital Technology: PhET<\/p>\n
Lesson Sequence:<\/p>\n
I. Warm up – Classroom<\/p>\n
Use a toy car on a platform to do some demonstrations and ask students about forces that are acting on them:<\/p>\n
This warm up activity is designed to get students thinking about forces and to bring forward any misconceptions related to how forces make objects move, speed up, slow down, or be at rest.<\/p>\n
II. Generate Hypotheses – Classroom<\/p>\n
Show students examples where objects are at rest. Example 1 is of the toy car from activity I staying motionless on a platform.\u00a0 Example 2 is a second toy car hanging from the ceiling with a string, once again at rest.\u00a0 Ask students what kinds of forces might be involved in keeping the toy cars motionless.\u00a0 Ask students to draw free body diagrams of the two examples, share with a partner, then ask for some volunteers to draw their free body diagrams on the board.<\/p>\n
III. Evaluate Hypotheses – Computer Lab<\/p>\n
Students are taken to the computer lab with their free body diagrams from the previous activity.\u00a0 Students are directed to the Forces and Motions<\/em> PhET simulation and are asked to replicate the toy car demonstrations they saw in activity I.\u00a0 For a refresher the demonstrations are written on the board:<\/p>\n Instead of the toy car, they are free to choose an object in the simulation.<\/p>\n Students are asked to make sure the “Force Vectors” box is checked so they can visualize the different forces acting on the object.<\/p>\n Students are asked to compare their own free body diagrams from activity II and those shown in the simulation.\u00a0 Students are asked to write down in their own words the similarities and differences between their free body diagrams from activity I and activity II.<\/p>\n IV.\u00a0 Modify Hypotheses – Computer Lab<\/p>\n Students are asked to summarize the forces that act on objects when the object is moving, and when the object is at rest based on activities I, II, and II.<\/p>\n V.\u00a0 Apply – Classroom<\/p>\n Students are paired up and each pair is given a small bucket filled with sand.\u00a0 One partner is asked to stand up and hold the buckets motionless using one hand.\u00a0 The teacher asks the pairs to draw free body diagram of this situation that show all the forces acting on that small bucket helping it remain motionless.<\/p>\n Literature:<\/p>\n T-GEM<\/p>\n Conceptual understanding in science topics that includes force and motion is difficult because of the number of different misconceptions students bring with them into the classroom. DEM\u0130RC\u0130, N. (2003) states, “It is evident from the literature that students of different educational backgrounds and different ages have basic preconceptions or misconceptions about force and motion concepts” (p. 40-41).\u00a0 Khan (2012) suggests that, “the use of GEM in science classrooms can produce significant students gains in inquiry skills and conceptual understanding..” (p. 59).\u00a0 It is this conceptual understanding that is critical to tackle misconceptions among students.\u00a0 Khan (2012) also states that, “…T-GEM enhances student understanding” (p. 62).\u00a0 Enhancing GEM cycles with technology (noted as T-GEM) can helps improve conceptual understanding of science topics.<\/p>\n PhET<\/p>\n PhET simulations are an excellent example technology enhancement to the GEM cycle.<\/p>\n Wieman, Adams, and Perkins (2008) describe PhET simulations in great detail and speak very positively of this interactive program.\u00a0 Wieman et al. (2008) enumerate common features found in PhET simulation that enhance learning as below:<\/p>\n These different features truly allow students to be immersed in the concept, try out different scenarios and test hypotheses instantly.\u00a0 These features combined make PhET an excellent tool for inquiry.\u00a0 Khan (2012) airs caution however that simulations cannot be used by themselves as stand alone learning tools as doing so, “…contributes to poor uptake in science classrooms and “clicking without thinking” amount students” (p. 59).\u00a0 Hence it is vital to pair PhET simulations with sound teaching methodologies like the GEM cycle, anchored instruction, or the LfU model.<\/p>\n References<\/p>\n DEM\u0130RC\u0130, N. (2003). Dealing with misconceptions about force and motion concepts in physics: A study of using web-based physics program. Hacettepe \u00dcniversitesi E\u011fitim Fak\u00fcltesi, (24), 40-47.<\/p>\n Khan, S. (2012). A Hidden GEM: A pedagogical approach to using technology to teach global warming. The Science Teacher, 79(8). This article was written about T-GEM with middle-schoolers.<\/p>\n Wieman, C. E., Adams, W. K., & Perkins, K. K. (2008). PHYSICS. PhET: Simulations that enhance learning. Science (New York, N.Y.), 322(5902), 682-683.<\/p>\n <\/p>\n","protected":false},"excerpt":{"rendered":" Misconception: If an object is at rest, no forces are acting on the object. (http:\/\/newyorkscienceteacher.com\/sci\/pages\/miscon\/phy.php) Instruction Framework: T-GEM Digital Technology: PhET Lesson Sequence: I. 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