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Premium member Presentation Transcript Communicating Mathematical Thinking: Latino/a Kindergarteners’ Use of Language to Solve Word Problems: Communicating Mathematical Thinking: Latino/a Kindergarteners’ Use of Language to Solve Word Problems Sylvia Celedón-Pattichis, UNM Mary Marshall, UNM Erin Turner, UA CEMELA is a Center for Learning and Teaching supported by the National Science Foundation, grant number ESI-0424983. Young Children’s Communication & Problem Solving: Young Children’s Communication & Problem Solving Problem solving and communication as integral to learning mathematics (NCTM, 2000) Often underestimated problem solving capacity of young children (CGI Studies, Carpenter, Fennema, et al.) Lack of research in how Latino children communicate their mathematical thinking in their native language, Spanish (Blum-Martínez)Young Latino/as & Problem Solving: Young Latino/as & Problem Solving Latino students represent fastest growing group in public schools Nearly half (45%) are English Language Learners (Kohler & Lazarín, 2007) Persistent achievement gap between Latino students and white and Asian counterparts Focus of our Research: Focus of our Research Research from a larger kindergarten study Study focuses on problem solving and communication Investigation of Latino students’ mathematical communication related to their problem-solving strategies Theoretical Perspectives: Theoretical Perspectives Socio-cultural Perspective on Learning (John-Steiner & Mahn, 1996; Nelson, 1991; Vygotsky, 1986) Discourse and Learning Mathematics (Cobb, 1997; Saxe, 2002; Moschkovich, 2002) Socioconstructivist Theory (Cobb 1997; Cobb & Yackel, 1996) Cognitively Guided Instruction (Carpenter et al., 1993; Carpenter et al., 1994)Setting: Setting One kindergarten classrooms, low SES school with predominantly Latino student population (87%) Focused on 8 students in the pre-post assessmentsMethods: Methods Larger Study Weekly Classroom Observations Video-taped, transcribed, coded Teacher Interviews Pre and Post Clinical Interview Assessments (Ginsburg, 1983) Administered in student’s dominant language, all but one case in Spanish Language coded for connections to story, strategy, metacognition, and students’ ability to discuss their thinking.Sample Assessment Items: Sample Assessment ItemsPre-Assessment Problem-Solving Results: Pre-Assessment Problem-Solving Results Most students could count small set of objects (under 10) Half of students solved basic addition (6+3) and basic subtraction problem (10-4) Multiplication, division and compare problems were much more challenging (17%, 25%, 0%) Pre-Assessment Language Results: Pre-Assessment Language Results Explanations were short and sometimes vague. Students could remember elements of the story, but saw it as a starting point for creative adaptation. When students solved with direct modeling, they could say how they counted and repeat the process aloud. Portrait of Instruction: Portrait of Instruction Problem solving lessons conducted twice a week, for about 30 minutes Average of 5 problems per lesson Both whole group and small group formats used Students had access to a range of tools Two Preliminary Language Themes for Post-Assessment: Two Preliminary Language Themes for Post-Assessment Students use language as a way to think about their thinking (metacognition). Students used language to connect the story to their model. Metacognition: Metacognition Students had the psychological tools available to begin to talk about how they were making sense of the problem (John-Steiner & Mahn, 1996; Vygotsky, 1986). They also began to recognize that problem solving involved a mental process. Gerardo’s Post Assessment (1): Gerardo’s Post Assessment (1) “Mi mente estaba pensando que era doce. Y yo también. Y luego…y luego lo conté.” “My mind was thinking it was twelve. And me too. And then…and then I counted.” Gerardo’s Post Assessment (2): Gerardo’s Post Assessment (2) I: How did you count? Show me. G: “Con mi voz adentro.” “With my voice inside.” Connecting the Story to the Model: Connecting the Story to the Model Language mediates students’ mathematical understanding. gives them an entry point to understand the mathematical situation. provides them a way to explain their thinking. helps them connect the mathematical model to the story.Video Case: Connecting the Story to the Model (2): Video Case: Connecting the Story to the Model (2) Dalia solves a Join Change Unknown problem in October (4,7) and then in May (7,11). Post Assessment Results (n=16): Post Assessment Results (n=16)Conclusions (1) : Conclusions (1) Students solved much broader range of problems than national assessment of 22,000 kindergarteners would predict 18% solved addition and subtraction 2% solved basic multiplication and division (NCES, 2005) Students used language that was sophisticated and focused on the problem. Conclusions (2) : Conclusions (2) Students showed an emergent ability to think about their thinking as they solved problems (Aunola et al., 2004). Native language learning gave students access to the psychological and linguistic tools that helped them make sense of the mathematics (Baker, 2006). Questions?: Questions? Paper available at: CEMELA website Select Research, then Presentations http://math.arizona.edu/~cemela/english/research/2007_presentations.php Sylvia Celedón-Pattichis sceledon@unm.edu Mary Marshall mmarshal@unm.edu Erin Turner eturner@email.arizona.edu You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
CeledonPPT Savina Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 74 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Communicating Mathematical Thinking: Latino/a Kindergarteners’ Use of Language to Solve Word Problems: Communicating Mathematical Thinking: Latino/a Kindergarteners’ Use of Language to Solve Word Problems Sylvia Celedón-Pattichis, UNM Mary Marshall, UNM Erin Turner, UA CEMELA is a Center for Learning and Teaching supported by the National Science Foundation, grant number ESI-0424983. Young Children’s Communication & Problem Solving: Young Children’s Communication & Problem Solving Problem solving and communication as integral to learning mathematics (NCTM, 2000) Often underestimated problem solving capacity of young children (CGI Studies, Carpenter, Fennema, et al.) Lack of research in how Latino children communicate their mathematical thinking in their native language, Spanish (Blum-Martínez)Young Latino/as & Problem Solving: Young Latino/as & Problem Solving Latino students represent fastest growing group in public schools Nearly half (45%) are English Language Learners (Kohler & Lazarín, 2007) Persistent achievement gap between Latino students and white and Asian counterparts Focus of our Research: Focus of our Research Research from a larger kindergarten study Study focuses on problem solving and communication Investigation of Latino students’ mathematical communication related to their problem-solving strategies Theoretical Perspectives: Theoretical Perspectives Socio-cultural Perspective on Learning (John-Steiner & Mahn, 1996; Nelson, 1991; Vygotsky, 1986) Discourse and Learning Mathematics (Cobb, 1997; Saxe, 2002; Moschkovich, 2002) Socioconstructivist Theory (Cobb 1997; Cobb & Yackel, 1996) Cognitively Guided Instruction (Carpenter et al., 1993; Carpenter et al., 1994)Setting: Setting One kindergarten classrooms, low SES school with predominantly Latino student population (87%) Focused on 8 students in the pre-post assessmentsMethods: Methods Larger Study Weekly Classroom Observations Video-taped, transcribed, coded Teacher Interviews Pre and Post Clinical Interview Assessments (Ginsburg, 1983) Administered in student’s dominant language, all but one case in Spanish Language coded for connections to story, strategy, metacognition, and students’ ability to discuss their thinking.Sample Assessment Items: Sample Assessment ItemsPre-Assessment Problem-Solving Results: Pre-Assessment Problem-Solving Results Most students could count small set of objects (under 10) Half of students solved basic addition (6+3) and basic subtraction problem (10-4) Multiplication, division and compare problems were much more challenging (17%, 25%, 0%) Pre-Assessment Language Results: Pre-Assessment Language Results Explanations were short and sometimes vague. Students could remember elements of the story, but saw it as a starting point for creative adaptation. When students solved with direct modeling, they could say how they counted and repeat the process aloud. Portrait of Instruction: Portrait of Instruction Problem solving lessons conducted twice a week, for about 30 minutes Average of 5 problems per lesson Both whole group and small group formats used Students had access to a range of tools Two Preliminary Language Themes for Post-Assessment: Two Preliminary Language Themes for Post-Assessment Students use language as a way to think about their thinking (metacognition). Students used language to connect the story to their model. Metacognition: Metacognition Students had the psychological tools available to begin to talk about how they were making sense of the problem (John-Steiner & Mahn, 1996; Vygotsky, 1986). They also began to recognize that problem solving involved a mental process. Gerardo’s Post Assessment (1): Gerardo’s Post Assessment (1) “Mi mente estaba pensando que era doce. Y yo también. Y luego…y luego lo conté.” “My mind was thinking it was twelve. And me too. And then…and then I counted.” Gerardo’s Post Assessment (2): Gerardo’s Post Assessment (2) I: How did you count? Show me. G: “Con mi voz adentro.” “With my voice inside.” Connecting the Story to the Model: Connecting the Story to the Model Language mediates students’ mathematical understanding. gives them an entry point to understand the mathematical situation. provides them a way to explain their thinking. helps them connect the mathematical model to the story.Video Case: Connecting the Story to the Model (2): Video Case: Connecting the Story to the Model (2) Dalia solves a Join Change Unknown problem in October (4,7) and then in May (7,11). Post Assessment Results (n=16): Post Assessment Results (n=16)Conclusions (1) : Conclusions (1) Students solved much broader range of problems than national assessment of 22,000 kindergarteners would predict 18% solved addition and subtraction 2% solved basic multiplication and division (NCES, 2005) Students used language that was sophisticated and focused on the problem. Conclusions (2) : Conclusions (2) Students showed an emergent ability to think about their thinking as they solved problems (Aunola et al., 2004). Native language learning gave students access to the psychological and linguistic tools that helped them make sense of the mathematics (Baker, 2006). Questions?: Questions? Paper available at: CEMELA website Select Research, then Presentations http://math.arizona.edu/~cemela/english/research/2007_presentations.php Sylvia Celedón-Pattichis sceledon@unm.edu Mary Marshall mmarshal@unm.edu Erin Turner eturner@email.arizona.edu