Matching Items (3)
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- All Subjects: Lesson Plans
- Creators: Walters, Molina
Description
This project examined the need for Science, Technology, Engineering, and Math (STEM) activities within a specific modality (centers) and their potential influence on elementary students with a particular emphasis on gender. STEM is an interdisciplinary curriculum that seeks to seamlessly incorporate science, technology, engineering, and math. Due to the increasing demand for STEM professions and proficiency within each aspect, the education system and individual educators require lessons and modalities that motivate learning in each of these areas. Administrators and teachers need creative ways to provide effective STEM implementation. Currently, the education system as a whole lacks creative and motivating material for these four domains. Not only this, but there has been a misunderstanding in regard to what effective STEM implementation entails, as well as a dearth of classroom ready lessons for educators. As a result, this thesis project developed a way to implement STEM through the use of learning centers. Learning centers are defined as designated areas within a classroom that allow easy access to a variety of learning materials. Within these centers are activities that reinforce concepts by using inquiry-based learning. Learning centers are effective in developing additional concepts or providing students with a greater breadth of knowledge on a concept. This thesis project developed three STEM learning center activity boxes and two STEM learning center outlines. Creating effective STEM learning centers and outlines was a multistep process. The first step was to develop a 3E lesson plan for each activity. Once the lesson plans were revised and complete, the creation of the three activity boxes was next. To create the activity boxes, all the required materials and worksheets were gathered and printed. From there, the next step was to implement the learning centers in a classroom to observe the results and propose any modifications. Afterwards, a reflection detailing the results and modifications was made. In the end, the goal of this project was to develop easily implemented STEM activities for my future classroom. Coming up with a creative way to get kids curious and excited about STEM is key in building STEM awareness. Not only did my project create STEM activities I can implement, but it also allowed me the opportunity to share my activities with other teachers. As a result, influencing the spread of STEM amongst future and current teachers.
ContributorsSchott, Nicole Elizabeth (Author) / Walters, Molina (Thesis director) / Oliver, Jill (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
This project consisted of creating at-home lesson plan activities for middle school sixth-grade students centered around environmental education topics. The lesson plan activities were informal for students to do at home by themselves or alongside their parents. I focused on Environmental Education topics such as awareness, animal and plant life so that students can learn more about the environments that surround them. Environmental Education invites students to look closer at the environment surrounding them while also helping them develop a sense of place and respect for their environment. My lesson plan activities encouraged students to go outside and learn more about their surroundings, developing an awareness and an appreciation for their natural setting. After implementing the lessons, I surveyed the students on the following 1) engagement: was the activity enjoyable 2) knowledge: what did you learn? and 3) the ease of the activity directions: what challenges did they face. After collecting the surveys, I analyzed them to see what went well, and changes I would make to future activities.
ContributorsMendoza, Daniella Nicole (Author) / Walters, Molina (Thesis director) / McKee, Dianne (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
This project examined the importance of inquiry in science education. The Arizona Science
Standards call for a change from teaching facts to teaching students to construct explanations of phenomena by engaging in science and engineering practices. Through a blend of science and engineering practices, core ideas, and crosscutting concepts, the performance expectations form standards that address applying ideas to explanation of phenomena, problem solving, and decision making. The ideas conveyed in the standards need to be developed over time through multiple lessons. Rather than simply present information to students, the Arizona Science Standards require teachers to support students in constructing explanations of phenomena and developing solutions to problems. The integration of the Arizona Science Standards in the science curriculum through the Five E model has the potential to provide students with inquiry- based learning that will help develop their science literacy skills. The 5E inquiry model consists of five phases: Engagement, Exploration, Explanation, Elaboration, and Evaluation. Each phase contributes to the learning process as students are encouraged to actively build their knowledge. The learning experiences in science education become richer and more meaningful to students when the science literacy skills are successfully integrated into the 5E inquiry model. Not only will the students learn the skills of science, but also, they will be actively engaged with science content. Active engagements with science will likely foster interest and positive attitudes towards science. This thesis project developed a way to implement inquiry-based learning through an electricity and magnetism unit that uses the 5E model and aligns with the Arizona State Science Standards. The goal of this project was to develop a science unit that can be implemented in future classrooms.
Standards call for a change from teaching facts to teaching students to construct explanations of phenomena by engaging in science and engineering practices. Through a blend of science and engineering practices, core ideas, and crosscutting concepts, the performance expectations form standards that address applying ideas to explanation of phenomena, problem solving, and decision making. The ideas conveyed in the standards need to be developed over time through multiple lessons. Rather than simply present information to students, the Arizona Science Standards require teachers to support students in constructing explanations of phenomena and developing solutions to problems. The integration of the Arizona Science Standards in the science curriculum through the Five E model has the potential to provide students with inquiry- based learning that will help develop their science literacy skills. The 5E inquiry model consists of five phases: Engagement, Exploration, Explanation, Elaboration, and Evaluation. Each phase contributes to the learning process as students are encouraged to actively build their knowledge. The learning experiences in science education become richer and more meaningful to students when the science literacy skills are successfully integrated into the 5E inquiry model. Not only will the students learn the skills of science, but also, they will be actively engaged with science content. Active engagements with science will likely foster interest and positive attitudes towards science. This thesis project developed a way to implement inquiry-based learning through an electricity and magnetism unit that uses the 5E model and aligns with the Arizona State Science Standards. The goal of this project was to develop a science unit that can be implemented in future classrooms.
ContributorsZou, Christy (Author) / Walters, Molina (Thesis director) / McKee, Dianne (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05