Science and Mathematics Education Commons^™

Imagination To Innovation: Design Thinking For Young Learners, Lindsey Herlehy, Cassandra Armstrong

Publications & Research

Design thinking is the intersection of engineering design and social-emotional learning. Today’s learners must be empathetic problem solvers capable of defining problems and designing appropriate solutions to meet the needs of the user. In this session, participants will experience design thinking through literature-based scenarios appropriate for early learners. They will analyze and compare their own models to those of others and compose a lesson that will engage students in the design thinking process.

Can You Master This? : Initial Attempts At Specifications-Based Grading In Introductory Chemistry, Laura Kopff

Faculty Publications & Research

The Illinois Mathematics and Science Academy (IMSA) requires all incoming students to complete a one-semester introductory chemistry course in their sophomore year – Scientific Inquiries in Chemistry (SI-Chem). This course has historically been taught using a traditional grading/assessment model, however, in the Spring of 2021, a switch was made to a specification-based grading system. One motivating factor in this decision is an institutional shift to an equity-focused grading approach, and an analysis of our historical assessment model indicated areas for improvement.

Our initial foray into specifications grading was during the Spring of 2021 semester, when all of our courses were …

Little Changes, Big Impact: Integrating Evolution In Science And Ela, Christine L. Moskalik, Nicole Ross

Publications & Research

No abstract provided.

Playing With Code: Big Ideas For Early Learners, Lindsey Herlehy, Cassandra Armstrong

Publications & Research

For young children growing in today’s digital world, the acquisition of coding and computer programming skills has become a popular and appropriate focus in education. Beyond engaging in technology and coding applications as consumers – the passive act of sitting in front of a screen and merely pressing buttons without a high level of thought – early childhood students are capable of high-quality programming tasks through play-based learning experiences. As producers, our youngest students may explore the open-ended nature of computer programming and coding through design, art, and innovation. Engaging in coding builds valuable and transferable practices such as problem …

Playing With Math And Science In The Early Childhood Classroom, Cassandra Armstrong, Lindsey Herlehy

Publications & Research

Young students are equipped with the curiosity and creativity to be successful scientists and mathematicians. In today’s classrooms, strong foundational skills in STEM promote success for years to come. Through play, young students can subitize, sort, draw, recognize patterns, and explore loose parts. Participants will actively take part in several activities highlighting each of these skills.

Parental Opinions And Perceptions Regarding Informal Stem Education, Christine L. Moskalik

Publications & Research

The purpose of this research was 1) to develop a new instrument to explore factors parents value regarding informal science, technology, engineering, and mathematics (STEM) enrichment experiences for their children in Illinois, and 2) to adapt and use an existing instrument to assess the degree to which parental perceptions of their child’s STEM attitudes and beliefs align with the child’s actual STEM attitudes and beliefs. A quantitative cross-sectional survey design was implemented over two parts. During Part I, a new survey was developed to quantitatively measure the degree to which certain factors are valued by parents when considering STEM enrichment …

Microcredentials To Promote Stem Professional Learning, Angela Rowley

Publications & Research

No abstract provided.

Young Mathematicians: Stem Skills For Success, Lindsey Herlehy

Publications & Research

Our youngest STEAM learners are creative and curious, but require support and foundational skills in mathematics and science. Join us for a series of integrated activities that explore subitizing, sorting, drawing, patterns, and data analysis, and leave with new ideas of how to build these STEAM skills in your classroom and remote-learning environment.

Little Big Minds: Stem For Our Youngest Learners, Cassandra Armstrong, Lindsey Herlehy

Publications & Research

STEAM-integrated activities are for all learners, including those in an early childhood setting. Participate in a series of play-based activities that promote foundational mathematics skills and foster curiosity, creativity, and innovation. Measure, graph, sort, categorize, argue, and defend your ideas while previewing a series of STEAM-integrated concepts featuring simple machines.

Problem Centered Teaching By Tomorrow, Cassandra Armstrong

Publications & Research

Problem Centered Instruction is a great way to engage students, integrate content, and inspire learning. However, true problem centered instruction requires a major shift in both teaching and learning, requiring the one thing teachers don't have: time. In today's session, we will look at some simple strategies that teachers can put to immediate use within the classroom to help start the shift towards a student-led, problem centered learning environment.

Context Is Critical: K-5th Grade Three-Act Math Tasks, Lindsey Herlehy

Publications & Research

Mathematicians view mathematics within interesting and natural contexts. In this session, participants will engage and explore Three-Act Math Tasks; a story-telling pedagogical strategy that elicits student curiosity, collaboration, and questioning while redefining the term “real-world context” and the role that students play in the learning process. Resources will be provided

Teaching With A Full Deck: Card Sorts, Lindsey Herlehy

Publications & Research

Card sorts tend to make students do the “thing” we value most: talk. Beyond making matches, card sorts provide opportunities for students to classify, rank, sequence, and mind map while setting a natural context for argumentation and use of the claim-evidence-reasoning framework. Join me for a series of card sorts to explore how this easy-to-prep tool will encourage your students to reason and think critically. Math and science resources will be shared.

Resources available below for download include all cards used in the training.

Back To Basics: Mathematical Play, Lindsey Herlehy

Publications & Research

Our youngest students are curious and creative with the skills and practices needed to be successful mathematicians. Engaging in play, students naturally take risks and pursue their own questions. Research shows this practice is beneficial for all students, regardless of grade level. So, let’s play!

Stem Storytelling: Using Picture Books To Integrate Mathematics - "Dare To Tinker", Lindsey Herlehy, Karen Togliatti

Publications & Research

This series of activities invites students to engage in a design challenge that elicits mathematical and scientific thinking. In the first activity, the picture book The Most Magnificent Thing by Ashley Spires will be used as a catalyst to discuss the engineering design process as experienced by the protagonist, a little girl. Suggested questioning techniques and inferential reasoning strategies will focus on the trials and tribulations, frustrations, and successes achieved by the little girl. Additionally, discussion prompts are included to provide students an opportunity to reflect on the little girl as a mathematician and scientist as she takes action and …

Impact Report 2018: Equity And Excellence, Illinois Mathematics And Science Academy

Impact Reports

For over 30 years, the Illinois Mathematics and Science Academy (IMSA) has pioneered the future of science, technology, engineering and mathematics (STEM) education through its two legislative charges: 1) to provide a uniquely challenging education for students talented in the areas of mathematics and science; and 2) to stimulate further excellence for all Illinois schools in mathematics and science. IMSA champions these goals through:

• Residential education: Helping talented 10th-12th graders representing over 93% of Illinois counties to date reach their fullest potential.
• Student and educator outreach: Leading the charge to continually innovate K-12 STEM education, creating a strong and diverse …

Stem Storytelling: Using Picture Books To Integrate Mathematics - "Who Lives Here?", Lindsey Herlehy, Karen Togliatti

Publications & Research

This series of activities invites students to explore animals and their habitats, classify “animal” figures by habitat, sort, represent, and analyze data. In the first activity, the picture book Listen to Our World by Bill Martin, Jr. and Michael Sampson will be used to discuss eleven different animals and their habitats. Questioning strategies will focus on student comprehension and inferential reasoning skills related to why each animal lives in a particular type of habitat. This book is utilized at all grade levels to introduce the subsequent activity.

The grade-level activities that follow integrate students’ knowledge of animals and their habitats …

Stem Integration: Math, Meet Biology!, Lindsey Herlehy, Karen Togliatti

Publications & Research

Join us for three hands-on, inquiry-based activities integrating mathematical and scientific thinking. First, explore patterns in the powers of ten and use this information to sort a set of images and design a scale model of an E. coli's DNA. Then, simulate a colorful biotechnology application using new tools and laboratory skills. Art, science, and math intersect in an activity merging coordinate geometry, symmetry, and biotechnology skills. NGSS and CCSS practice standards will be demonstrated.

Impact Report 2017: Imsa30, The Promise And Power Of Imsa, Illinois Mathematics And Science Academy

Impact Reports

The State of Illinois launched the Illinois Mathematics and Science Academy (IMSA), which is recognized as the world's leading teaching and learning lab for imagination and inquiry, in collaboration with business, education, and science leaders. For 30 years, IMSA has pioneered the future of science, technology, engineering, and math (STEM) education through its two legislative charges: 1) to provide a uniquely challenging education for students talented in the areas of mathematics and science and 2) to stimulate further excellence for all Illinois schools in mathematics and science. IMSA champions these goals through:

New STEM teaching models: leading the charge to …

“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe

Faculty Publications & Research

I have developed a new teaching and learning model called AAAW, which stand for Analyze, Acquire, Apply and Write. This model grows from action research and unique experience in teaching a biochemistry course to high school students who are talented in math and science. In this model, students first "Analyze" lab data to generate questions that lead them to "Acquire" background knowledge. Students then go back to the data and "Apply" their new knowledge to better understand the data. Finally, students "Write" about the connections they make from their reading, data analysis, and application of the data. The rationale behind …

Developing Transfer Skills In A Biochemistry Class, Jeong V. Choe

Faculty Publications & Research

Students seem to struggle with transferring prior knowledge if the new problem they are given is in a different form from the way they learned the material. The process of transfer can be identified by four components: 1) recognizing the similarity between the old and new contexts; 2) identifying the potential of a certain skill or concept that has worked in the past, to give solutions to new problematic situations; 3) mental testing of the application of the potential solution; and 4) an attempt to apply the skill or concept to a new context (Georghiades 2000). These four components are …

Using Inquiry To Teach Microscope Skills, Susan Styer

Faculty Publications & Research

One of the first lab activities often done in a high school biology course is learning to use the microscope. As it is typically described in laboratory manuals, there is no inquiry involved in this activity. Students learn the parts of the microscope and information explaining its operation. There may be a review of the metric system. Then students examine cells, often to observe the difference between plant and animal cells. Students may be instructed to prepare wet mounts and do simple staining. All of these are important skills to have in order to use the microscope correctly, but it …

Preparing Students For Careers That Do Not Yet Exist, Glenn W. "Max" Mcgee

Publications & Research

The Illinois Mathematics and Science Academy (IMSA), as a self-described "teaching and learning laboratory for imagination and inquiry," has a history of pursuing innovations closely aligned with the vision and framework of the National Science Education Standards. Innovations include both methods and materials for inquiry-based student instruction as well as for delivering professional development for pre-service and practicing teachers. Instructional innovations described include yearlong student inquiry and research projects (SIR), self-paced physics instruction, student-driven energy and engineering projects, instruction in innovation and entrepreneurialism, and a host of student-led outreach activities to "ignite and nurture creative, ethical, scientific minds of students …

The Complexity Of Reform Efforts In Science Curriculum And Instruction: A Case Study Of The Illinois Mathematics And Science Academy Chemistry Teacher, Tang Wee Teo

IMSA History

This study explores how teacher-initiated site-based reform in a specialized STEM school is conceptualized and enacted, how and why curriculum reform ideas change in the process of enactment, what qualities of teacher agency are entailed, how these qualities are acquired, interplayed, become generative, and/or are influenced to effect different curriculum reform outcomes, and how different conditions support and further teacher agency to make a more defensible curriculum.

In a critical case study of a highly experienced and qualified science teacher, I follow a teacher who initiated efforts to reform the advanced chemistry curriculum. This teacher wanted to make the curriculum …