Matching Items (10)
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- All Subjects: Science
- Creators: Division of Teacher Preparation
Description
There is still a major underrepresentation of females in STEM fields, with many girls beginning to lose interest as early as middle school. This is due to a variety of factors including lack of role models, stereotypes, ineffective teaching methods, and peer influence. A popular way to increase female interest is through day camps and other programs where girls complete a variety of activities related to science and engineering. These activities are usually designed around problem-based learning, a student-lead approach to teaching that requires students to work collaboratively and use background knowledge to solve some sort of given problem. In this project, a day camp for middle school girls was created and implemented to increase student interest in STEM through three problem-based learning activities. By analyzing survey data, it was concluded that the camp was successful in increasing interest and changing participants' attitudes towards science. This approach to learning could be applied to other subject areas, including mathematics, to increase the interest of both male and female students at the secondary level.
ContributorsVitale, Nathalie Maria (Author) / Walters, Molina (Thesis director) / Oliver, Jill (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05
Description
Scientific literacy is a critical part of the education of high school students. Students can demonstrate literacy in science by being able to read and write scientific reports as well as recognize and discuss how science affects daily lives. However, many teachers are not familiar with the topic and do not have the resources necessary to implement it into their classrooms. This project attempts to create a website that compiles information from many sources to one concise location that is simple for teachers to use. The goal of the website is to provide teachers with a resource that they can access and use quickly despite their busy schedules. The information provided is easily translatable into a classroom, and examples of lessons as well as links to resources are provided. Considerations of difficulties such as the need to prepare students for standardized tests as well as limited budgets were brought into consideration when choosing the concepts suggested for teachers. Aspects of scientific literacy addressed are: project based learning, virtual labs, apprenticeship programs, and peer mediated learning strategies. The project also addresses how demographics that are represented at lower levels in science can be aided. These groups include female students, minorities, and students with High Functioning Autism (HFA). The website portion of the project is accompanied by a paper that summarizes the research findings as well as the personal reaction of the author and how her teaching has been affected by the study. Upon completion of the project the website will be shared with school districts across Phoenix to provide teachers with access to the resources compiled in it.
ContributorsBlome, Rebecca Ellen (Author) / Marshall, Pamela (Thesis director) / Hart, Juliet (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2015-12
Description
The specific focus of the curriculum guide is to encourage inquiry and exploration of sustainability with middle school students. Children need to be explicitly taught how to analyze findings, how to work together, and teachers need to begin to lay the foundation of finding ideal solutions that best serve all people. The sooner that we introduce our students to these concepts in conjunction with science concepts the better prepared they will be to face the upcoming challenges and the better developed their scientific literacy.
ContributorsSibley, Amanda Marie (Author) / Walters, Molina (Thesis director) / Oliver, Jill (Committee member) / Kurz, Terri (Committee member) / Barrett, The Honors College (Contributor) / Division of Teacher Preparation (Contributor)
Created2014-05
Description
As a Country, the United States is continually falling behind academically when compared to other Nations. Therefore, the purpose of my Honors Thesis is to enlighten others on the importance of incorporating science, technology, engineering, and mathematics (STEM) into our classrooms. When students have the chance to partake in hands on, inquiry based lessons, their new knowledge for the subject increases drastically. However, completing STEM lessons in the classroom is a challenging task. For this reason, I have designed a unit's worth of lesson plans, where the unit encompasses science, technology, engineering, and mathematics. These STEM lessons are inquiry-based so that students get an understanding that science is a learning process, not just a group of facts to be memorized. The lessons are written in the 5E format, as this format is based on the way human beings learn. I wanted to make this as easy as possible for teachers to bring inquiry-based STEM learning into the classroom. When students are allowed to take control of their own learning and make discoveries for themselves, they are going to realize the excitement that comes with STEM. This will lead more students to pursue STEM careers, thus helping bring the United States back to a competitive level academically.
ContributorsPiatak, Mary Frances (Author) / Oliver, Jill (Thesis director) / Walters, Molina (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2016-12
DescriptionThis project is designed to generate enthusiasm for science among refugee students in hopes of inspiring them to continue learning science as well as to help them with their current understanding of their school science subject matter.
ContributorsSipes, Shannon Paige (Author) / O'Flaherty, Katherine (Thesis director) / Gregg, George (Committee member) / School of Molecular Sciences (Contributor) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2017-12
Description
This creative project created and implemented a seven-day STEM curriculum that ultimately encouraged engagement in STEM subjects in students ages 5 through 11. The activities were incorporated into Arizona State University's Kids' Camp over the summer of 2017, every Tuesday afternoon from 4 to 6 p.m. with each activity running for roughly 40 minutes. The lesson plans were created to cover a myriad of scientific topics to account for varied student interest. The topics covered were plant biology, aerodynamics, zoology, geology, chemistry, physics, and astronomy. Each lesson was scaffolded to match the learning needs of the three age groups (5-6 year olds, 7-8 year olds, 9-11 year olds) and to encourage engagement. "Engagement" was measured by pre- and post-activity surveys approved by IRB. The surveys were in the form of statements where the children would totally agree, agree, be undecided, disagree, or totally disagree with it. To more accurately test engagement, the smiley face Likert scale was incorporated with the answer choices. After implementation of the intervention, two-tailed paired t-tests showed that student engagement significantly increased for the two lesson plans of Aerodynamics and Chemistry.
ContributorsHunt, Allison Rene (Co-author) / Belko, Sara (Co-author) / Merritt, Eileen (Thesis director) / Ankeny, Casey (Committee member) / Division of Teacher Preparation (Contributor) / Harrington Bioengineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2017-12
Description
Students with autism spectrum disorders (ASD) are increasingly included in general education and are expected to access core content, including science. Development of science content knowledge, scientific literacy, and scientific thinking are areas emphasized in legislation as well as the National Science Education Standards (NSES) as critical for all students. However, participation in science inquiry and discourse is often challenging for students with ASD given their difficulties with communication. Moreover, evidence on teaching academic content, such as science, to students with disabilities is limited. This comprehensive literature review synthesized ten studies of science intervention strategies for students with ASD. Findings suggest that students struggle with obtaining and retaining the background knowledge and strenuous vocabulary necessary to be successful with science content. Though studies related to instructional interventions in science for students with ASD are limited, these students can benefit from direct instruction through the implementation of supplementary materials such as e-texts, graphic organizers, and scripted lessons. Although there is not much research that supports inquiry-based practices, these interventions engage and assist students in the science curriculum by providing hands-on explorations with the material. Evidence-based practices for interventions in science for students with ASD have focused on direct instruction and inquiry-based practices. Direct instruction elicits explicit strategies in delivering science content concretely and directly. Many direct instruction approaches deal with the incorporation of visual supports and supplementary material to guide in student retention and access of complex ideas and terminology. Through direct instruction, the teacher facilitates and leads instruction to benefit the acquisition of science background knowledge. Contrastingly, inquiry-based practices encourage independent learning and hands-on explorations. While science is frequently inquiry-based in the general education setting, the communication challenges for students with ASD may contribute to difficulties with interactions and collaborations among peers within an inquiry lesson. Future implications include the need for additional, empirically-supported interventions in science for students with ASD and the need to target more inquiry-based science interventions for this population.
ContributorsFrankel, Ashleigh Jeanne (Author) / Barnett, Juliet (Thesis director) / Farr, Wendy (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2016-12
Description
In recent education trends, an emphasis has been placed on teaching students in STEM (Science, Technology, Engineering, and Mathematics) disciplines. Many researchers have advocated for integrating Arts education as well, changing STEM education to STEAM (STEM + Arts) education. This paper describes an original 8th Grade physics curriculum integrating Science, Technology, Engineering, Arts, and Mathematics (STEAM). The curriculum was designed to teach core science concepts through inquiry and dance activities. The curriculum uses the 5E inquiry format, specifically using dance and movement activities to elaborate on the learned science content. The unit curriculum is designed to be implemented in an 8th Grade science classroom based on best practices in Science Instruction and Dance Education. The curriculum was not implemented as a research study this year, but is designed to support research in the future. The curriculum was however presented to Term 6 Pre-service Teachers in Mary Lou Fulton Teacher's College at ASU, whom evaluated the effectiveness of the lessons and offered feedback. This paper includes a review of current literature on STEAM education and dance integration, rationale for the curriculum's 5E Format and dance integration, the entire physics unit curriculum in 5E format, Pre-service Teacher feedback, and implications for a future research study with the unit curriculum.
ContributorsHarris, Carson Donald (Author) / Chen, Ying-Chih (Thesis director) / Atkinson, Laura (Committee member) / Division of Teacher Preparation (Contributor) / School of Film, Dance and Theatre (Contributor) / Barrett, The Honors College (Contributor)
Created2016-12
Description
The present study tested 1) whether children’s bedtimes, wake times, and sleep
durations change as they transition into kindergarten (TtoK), 2) if changes to children’s
sleep schedules were contingent on their pre-kindergarten (T1) napping status and if T1
bedtimes were related to fall (T2) and spring (T3) bedtimes and durations, and 3) whether
T1 sleep, changes to sleep from T1 to T2, and concurrent sleep quality were related to
academic achievement and participation in 51 kindergarteners. It was hypothesized that
1) wake times would be earlier and sleep duration would be shorter during kindergarten
(T2 and T3) than at T1, 2) children who napped at T1 would go to bed later and have
shorter sleep duration than their non-napping peers and T1 bedtimes would be positively
associated with T2 and T3 bedtimes and negatively associated with T2 and T3 durations,
and 3) more optimal sleep (e.g., consolidated, consistent, and high quality) would be
positively related to academic achievement and participation. Parents reported on
children’s bedtimes, wake times, and nap lengths during T1, T2, and T3. During T3
children wore actigraphs for five consecutive school nights and completed the Woodcock
Johnson tests of achievement (WJ-III). Teachers also reported on children’s participation
in the classroom during T3. Results demonstrated that bedtimes and wake times were
earlier at T2 and T3 than T1. Duration was shorter at T2 and T3 than T1. Additionally,
napping was unrelated to bedtimes and durations, but T1 bedtime was positively related
to T2 and T3 bedtimes and negatively related to T2 and T3 durations. Finally, T1 nap
length, change in bedtimes, and Actigraphy duration were negatively related to
participation. Actigraphy onset variability was positively related to participation.
durations change as they transition into kindergarten (TtoK), 2) if changes to children’s
sleep schedules were contingent on their pre-kindergarten (T1) napping status and if T1
bedtimes were related to fall (T2) and spring (T3) bedtimes and durations, and 3) whether
T1 sleep, changes to sleep from T1 to T2, and concurrent sleep quality were related to
academic achievement and participation in 51 kindergarteners. It was hypothesized that
1) wake times would be earlier and sleep duration would be shorter during kindergarten
(T2 and T3) than at T1, 2) children who napped at T1 would go to bed later and have
shorter sleep duration than their non-napping peers and T1 bedtimes would be positively
associated with T2 and T3 bedtimes and negatively associated with T2 and T3 durations,
and 3) more optimal sleep (e.g., consolidated, consistent, and high quality) would be
positively related to academic achievement and participation. Parents reported on
children’s bedtimes, wake times, and nap lengths during T1, T2, and T3. During T3
children wore actigraphs for five consecutive school nights and completed the Woodcock
Johnson tests of achievement (WJ-III). Teachers also reported on children’s participation
in the classroom during T3. Results demonstrated that bedtimes and wake times were
earlier at T2 and T3 than T1. Duration was shorter at T2 and T3 than T1. Additionally,
napping was unrelated to bedtimes and durations, but T1 bedtime was positively related
to T2 and T3 bedtimes and negatively related to T2 and T3 durations. Finally, T1 nap
length, change in bedtimes, and Actigraphy duration were negatively related to
participation. Actigraphy onset variability was positively related to participation.
ContributorsBerger, Rebecca Hilary (Author) / Valiente, Carlos (Thesis advisor) / Eisenberg, Nancy (Committee member) / Doane, Leah (Committee member) / Arizona State University (Publisher)
Created2015
Description
This project was focused on creating a trade book that could be used in Kindergarten through first-grade classrooms for science lessons. I have analyzed and researched the benefits of using trade books in the classroom. Along with those benefits, best practices were also looked at. I then applied those key questions, ideas, and concepts that are used to determine the use of a trade in the classroom, and created my own trade book. The trade book was centered around a standard from Next Generation Science Standards for Kindergarten through first-grade. The focus of this book was to inform children, in an age appropriate, yet scientifically accurate and engaging format, what living organisms need in order to survive and grow. The trade book brings all the research and creativity together in order to inform and benefit students in their learning process. This creative project has allowed me to broaden my literary skills, as well as my creativity for teaching in the classroom.
ContributorsMercado, Catherine Louise (Author) / Pfister-Angulo, Mark (Thesis director) / McKee, Dianne (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05