Education Commons^™

Pt. 1: Research Question & Background, Sarah O'Leary-Driscoll

Research Project

No abstract provided.

Primer Design Activity, Sarah O'Leary-Driscoll

Primer Design

No abstract provided.

Obtaining Genomic Sequence Practice, Sarah O'Leary-Driscoll

Introduction to NCBI

No abstract provided.

Dna Timeline And Poster Project, Sarah O'Leary-Driscoll

Genomics: Past & Future

The DNA timeline goes through many of the major discoveries that have driven our understanding of genetics since Mendel. Pick two scientists and create a PowerPoint slide poster (to be printed out on regular printer sized paper) that covers the following:

3: Genomics: Past & Future Bibliography, Sarah O'Leary-Driscoll

Genomics: Past & Future

No abstract provided.

Future Of Genomics: Presentations, Sarah O'Leary-Driscoll

Genomics: Past & Future

In his testimony to a House of Representatives sub-committee on health, director of the National Human Genome Research Institute, Francis S. Collins, said that the future of genomics had three main focal points:

"Genomics to Biology: The human genome sequence provides foundational information that now will allow development of a comprehensive catalog of all of the genome's components, determination of the function of all human genes, and deciphering of how genes and proteins work together in pathways and networks.

Genomics to Health: Completion of the human genome sequence offers a unique opportunity to understand the role of genetic factors in …

Database/Resource Acronyms, Sarah O'Leary-Driscoll

Course Information

No abstract provided.

What Is Bioinformatics?, Sarah O'Leary-Driscoll

Course Information

Bioinformatics has evolved into a full-fledged multidisciplinary subject that integrates developments in information and computer technology as applied to Biotechnology and Biological Sciences. Bioinformatics uses computer software tools for database creation, data management, data warehousing, data mining and global communication networking. Bioinformatics is the recording, annotation, storage, analysis, and searching/retrieval of nucleic acid sequence (genes and RNAs), protein sequence and structural information. This includes databases of the sequences and structural information as well methods to access, search, visualize and retrieve the information. Bioinformatics concern the creation and maintenance of databases of biological information whereby researchers can both access existing information …

Comprehensive Course Syllabus, Sarah O'Leary-Driscoll

Course Information

The bioinformatics seminar is focused on developing an understanding of the principles behind genomic analyses, developing skills using the different available bioinformatics programs, and becoming aware of the past developments and current research avenues that are benefited by these types of analyses.

Glossary Of Bioinformatics Terms, National Human Genome Research Institute

Course Information

No abstract provided.

Readings On Current Biology: Bibliography, Imsa Biology Team

Nature of Science

No abstract provided.

Post-Assessment, Imsa Biology Team

Nature of Science

No abstract provided.

Current Readings In Biology: Guiding Questions, Imsa Biology Team

Nature of Science

No abstract provided.

Essential Questions, Imsa Biology Team

Nature of Science

Questions that must be addressed in order to understand the current state of biological life and how it has changed over time.

Nature Of Science Pre-Questions, Imsa Biology Team

Nature of Science

No abstract provided.

Science & Spaghetti Monsters: Understanding The Nature Of Scientific Knowledge & Research, Sarah O'Leary-Driscoll

Nature of Science

What is science?

When students are asked to define science, many of them define science as “a body of knowledge gained by performing experiments.”

A more appropriate definition, however, is that “Science is … a process of inquiry aimed at building a testable body of knowledge open to rejection or confirmation” (Shermer, 2005).

There are three important points that this definition makes:

Course Syllabus: Fall 2015, Imsa Biology Team

Nature of Science

No abstract provided.

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

Jeong Choe

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 …

Imsa© Fusion: Preparing Students For Future Scientific Expertise, Michelle Kolar, Dora Phillips, Elizabeth Martinez, Laurie S. Sutherland

Publications & Research

Illinois adopted the Next Generation Science Standards (NGSS) on February 19, 2014 with implementation scheduled to begin in the 2016-17 school year. This article explores (1) the national and statewide need for STEM college and career readiness based on current data; (2) the research on best practices in STEM teaching and learning; and (3) the work of the Illinois Mathematics and Science Academy (IMSA) to create IMSA Fusion, a science, technology, engineering and mathematics (STEM) educational program that is aligned with NGSS and utilizes research-based best practices to serve Illinois educators and students.

The introduction of the Next Generation Science …

Teaching Tolkien: Language, Scholarship, And Creativity, Adam Kotlarczyk

Faculty Publications & Research

Why Tolkien?

Let us start with the obvious—if cynical—question, almost certain to come from a skeptical administrator or colleague: why would any serious, self-respecting English teacher want to teach an author whose work is about dragons, fairies, and the fantastic? With all the increased attention to standardized testing and with the demand for rigor in read- ings in the average English curriculum, choosing a popular text might raise eyebrows among critics. The question that an English teacher may be asked (or indeed, may ask him- or herself) is: doesn't teaching Tolkien as "serious" literature just fan those flames?

“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 …

Addressing Misconceptions About Evolution, Sarah O'Leary-Driscoll, Don Dosch

Evolution

"Leave with effective ways to identify and address misconceptions about evolution, with a particular focus on supporting explanations with evidence."

Addressing Misconceptions About Evolution, Sarah O'Leary-Driscoll, Don Dosch

Faculty Publications & Research

"Leave with effective ways to identify and address misconceptions about evolution, with a particular focus on supporting explanations with evidence."

Topic 2: Kantian Ethics, Lee Eysturlid

Considerations in Ethics

No abstract provided.

Engineering Education For High-Ability Students, Branson Lawrence, Diane Hinterlong, Laurie S. Sutherland

Publications & Research

Over the course of their careers, engineers command a breadth and depth of knowledge from science, mathematics, society, politics, and economics that is needed for continuously updating their knowledge of the latest discoveries and advances. Driven by curiosity and enabled by rapid information technology, engineers are kept abreast of the latest advancements almost instantaneously. Today’s scientific knowledge is fluid and complex, yet these traits of engineering remain constant: the ability to define structure, plan, repeatedly evaluate, and align results to the initial objective. Engineering teachers need to facilitate their students’ ability to access information effectively and to apply it appropriately, …

Experiential Learning At The Illinois Mathematics And Science Academy, Michelle Kolar, Dora Phillips, Christopher G. Kolar

Publications & Research

“Am I ever going to use this in the real world?” is a common question in science and math middle school and high school classrooms. Students taught using experiential learning techniques, however, already know the answer. They learn content by solving real world problems through hands-on activities. In other words, they learn science, technology, engineering, and math (STEM) the same way professionals do every day—by doing, sharing, and improving. Experiential learning provides the promise that the U.S. can reverse the trend of students losing interest in STEM subjects during middle school and create life-long learners who apply the scientific thought …

The Case, Glenn W. "Max" Mcgee, Christopher Kolar

Christopher G. Kolar

The internationally recognized Illinois Mathematics and Science Academy® (IMSA) was created by the State of Illinois to develop talent in science, technology, engineering, and mathematics. IMSA enrolls a diverse pool of academically talented Illinois students (grades 10-12) in its advanced, residential college preparatory program. It also serves thousands of educators and students in Illinois and beyond through innovative instructional programs designed to foster imagination and inquiry (see www.imsa.edu).

"Best Practices" At The Illinois Mathematics And Science Academy, Steven Rogg

Steven R Rogg

No abstract provided.

The Case, Glenn W. "Max" Mcgee, Christopher Kolar

Glenn W. "Max" McGee

The internationally recognized Illinois Mathematics and Science Academy® (IMSA) was created by the State of Illinois to develop talent in science, technology, engineering, and mathematics. IMSA enrolls a diverse pool of academically talented Illinois students (grades 10-12) in its advanced, residential college preparatory program. It also serves thousands of educators and students in Illinois and beyond through innovative instructional programs designed to foster imagination and inquiry (see www.imsa.edu).

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

Glenn W. "Max" McGee

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 …