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Full-Text Articles in Gifted Education
Evolution Practice 2, Imsa Biology Team
Genetic Drift Simulation, Imsa Biology Team
Genetic Drift Simulation, Imsa Biology Team
Evolution
Genetic drift can be defined as a random fluctuation in gene frequency. More specifically, it tells us that different alleles may increase or decrease in a population in proportion to one another over time, just by chance, rather than due to any fitness advantage.
Mechanisms And Speciation 2: Evolution On The Web Questions, Imsa Biology Team
Mechanisms And Speciation 2: Evolution On The Web Questions, Imsa Biology Team
Evolution
The website below, sponsored by UC Berkeley, is a reliable source for information about evolution. This will give you the introductory information about the mechanisms of Evolution.
Mechanisms And Speciation 1: The Modern Synthesis, Imsa Biology Team
Mechanisms And Speciation 1: The Modern Synthesis, Imsa Biology Team
Evolution
The Modern Synthesis or Synthetic Theory of Evolution is an explanation of evolution that is based on modern genetic principles. According to the Modern Synthesis (a.k.a. Neo-Darwinism):
Evidence Of Evolution 2: Definitions For Evolutionary Evidence Lab, Imsa Biology Team
Evidence Of Evolution 2: Definitions For Evolutionary Evidence Lab, Imsa Biology Team
Evolution
This lab activity was designed to provide you with opportunities to make inferences and draw conclusions about evolution and the common ancestry of various animals based on their anatomical characteristics and comparative anatomy. You will be given tasks to accomplish or questions to answer at each of 11 stations. In order to do this successfully, you must make careful observations of the specimens on display. You must also know the following definitions before beginning this activity:
Evolution Practice 1, Imsa Biology Team
Evolution Practice 1, Imsa Biology Team
Evolution
Answer the following questions using information from the handouts, and examples from the LAB
Evidence Of Evolution 1: Structures, Imsa Biology Team
Evidence Of Evolution 1: Structures, Imsa Biology Team
Evolution
In order to investigate linage, evolutionary history, and common ancestry, you need to be familiar with the following structures.
Essential Questions, Imsa Biology Team
Essential Questions, Imsa Biology Team
Evolution
In order to understand the current state of biological life and how it has changed over time, the following questions must be addressed:
Evidence Of Evolution 3: Evolutionary Evidence And Inferences Lab: A Discussion Guide, Imsa Biology Team
Evidence Of Evolution 3: Evolutionary Evidence And Inferences Lab: A Discussion Guide, Imsa Biology Team
Evolution
This lab activity was designed to provide you with opportunities to make inferences and draw conclusions about evolution and the common ancestry of various animals based on their anatomical characteristics and comparative anatomy. You will be given tasks to accomplish or questions to answer at each of 11 stations. In order to do this successfully, you must make careful observations of the specimens on display.
Readings On Current Biology: Bibliography, Imsa Biology Team
Readings On Current Biology: Bibliography, Imsa Biology Team
Nature of Science
No abstract provided.
Post-Assessment, Imsa Biology Team
Current Readings In Biology: Guiding Questions, Imsa Biology Team
Current Readings In Biology: Guiding Questions, Imsa Biology Team
Nature of Science
No abstract provided.
Essential Questions, Imsa Biology Team
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 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
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
The Value Of Creating An Innovation Talent Pipeline, Britta Mckenna
The Value Of Creating An Innovation Talent Pipeline, Britta Mckenna
Britta McKenna
Investing in the innovation pipeline today translates to Illinois business tomorrow. Somewhere between the rise of “STEM” and “staying globally competitive” in a time after Millennials is Generation Z. Gen Z digital natives are now making their way to and through primary and secondary education and we need to be ready to nurture the emerging talents of these and other future innovators. This is particularly important in Illinois where developing – and retaining – top talent will be a key driver of the state’s knowledge-based economy. There is hard work ahead reimagining what education should look like to support this …
Suburban Leaders Who Have Made A Difference: Jose Torres, José M. Torres
Suburban Leaders Who Have Made A Difference: Jose Torres, José M. Torres
José M. Torres
This week we are featuring Dr. Jose Torres, the president of Aurora-based Illinois Mathematics and Science Academy. Torres was superintendent of Elgin Area School District U-46 from 2008 to 2014 and has served in various leadership roles, including regional superintendent/area instruction officer in Chicago Public Schools, and as the only superintendent on the Federal Equity and Excellence Commission of the United States Department of Education. Torres was one of three educators nationwide to receive the 2014 Dr. Effie H. Jones Humanitarian Award from the AASA, the school superintendents association.
Technology Education For High-Ability Students, Carl Heine, James Gerry, Laurie S. Sutherland
Technology Education For High-Ability Students, Carl Heine, James Gerry, Laurie S. Sutherland
Carl Heine
Technologically adept teens not only consume technology voraciously; they create it. Gifted and talented students are attracted to technology for its capacity to transform learners from “receptacles of knowledge to active producers who direct their own learning” (Siegle, n.d.). Beyond the capacity to produce or innovate with technology is the opportunity to conceive and produce innovative technologies, a distinct type of tech giftedness (Siegle, n.d.) and the focus of the present chapter. Technologically skilled teens have been doing this for some time, typically unassisted. It’s not hard to locate the connections between Facebook, Google, and YouTube and their gifted creators. …
2015 Imsaloquium, Student Investigation Showcase, Illinois Mathematics And Science Academy
2015 Imsaloquium, Student Investigation Showcase, Illinois Mathematics And Science Academy
IMSAloquium Event Booklets
"We want to express our gratitude for the generosity and steadfast support of all the experts and leaders who have nurtured These collaborative partnerships are the strength of our SIR program."
Addressing Misconceptions About Evolution, Sarah O'Leary-Driscoll, Don Dosch
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."
Engineering Education For High-Ability Students, Branson Lawrence, Diane Hinterlong, Laurie S. Sutherland
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, …
Technology Education For High-Ability Students, Carl Heine, James Gerry, Laurie S. Sutherland
Technology Education For High-Ability Students, Carl Heine, James Gerry, Laurie S. Sutherland
Publications & Research
Technologically adept teens not only consume technology voraciously; they create it. Gifted and talented students are attracted to technology for its capacity to transform learners from “receptacles of knowledge to active producers who direct their own learning” (Siegle, n.d.). Beyond the capacity to produce or innovate with technology is the opportunity to conceive and produce innovative technologies, a distinct type of tech giftedness (Siegle, n.d.) and the focus of the present chapter.
Technologically skilled teens have been doing this for some time, typically unassisted. It’s not hard to locate the connections between Facebook, Google, and YouTube and their gifted creators. …