Anax junius: Information
- Subject:
- Life Science
- Zoology
- Material Type:
- Reading
- Provider:
- University of Michigan Museum of Zoology
- Provider Set:
- Animal Diversity Web
- Author:
- Paul Roach (author), Southwestern University
- Date Added:
- 03/07/2005
Anax junius: Information
The questions provide guidance and reflection as educators choose anchor texts for collaboration.
Consumers often measure whether they got a good deal on a purchase by the difference between the original price and a sales price. The bigger the difference is, the better the deal feels. The original price a consumer is exposed to becomes a reference point, or an anchor. The April 2021 issue of Page One Economics® Focus on Finance explains the anchoring effect and the role it plays in the decisionmaking process when it comes to what consumers are willing to pay for a good or service.
Instructional sequences are more coherent when students investigate compelling natural phenomena (in science) or work on meaningful design problems (in engineering) by engaging in the science and engineering practices. We refer to these phenomena and design problems here as ‘anchors.’Here is a tool to assist in determining if the elements of the anchoring phenomenon are strong or could use some additional thinking. Original works can be found at NextGenStorylines.org
The Anchoring Phenomenon Routine is the launch to student investigation around the anchoring phenomenon. This phenomenon will be the one that students will describe and explain, using disciplinary core ideas, science and engineering practices and crosscutting concepts in investigations. The Anchoring Phenomenon Routine will encourage thoughtful consideration of the phenomenon, initial models, connections to related phenomenon, discussions about the phenomenon and the creation of the KLEWS chart used for documenting student learning. In an Anchoring Phenomenon Routine, students:
● Are presented with a phenomenon or design problem
● Write and discuss what they notice and wonder about from the initial presentation
● Create and compare initial models of the phenomenon or problem
● Identify related experiences and knowledge that they could draw upon to explain the phenomenon or solve the problem
● Construct a KLEWS Chart
● Identify potential investigations to answer the questions on the KLEWS Chart, adding the questions to the chart
The Anchoring Phenomenon Routine is the launch to student investigation around the anchoring phenomenon. This phenomenon will be the one that students will describe and explain, using disciplinary core ideas, science and engineering practices and crosscutting concepts in investigations. The Anchoring Phenomenon Routine will encourage thoughtful consideration of the phenomenon, initial models, connections to related phenomenon, discussions about the phenomenon and the creation of the KLEWS chart used for documenting student learning. In an Anchoring Phenomenon Routine, students:
● Are presented with a phenomenon or design problem
● Write and discuss what they notice and wonder about from the initial presentation
● Create and compare initial models of the phenomenon or problem
● Identify related experiences and knowledge that they could draw upon to explain the phenomenon or solve the problem
● Construct a KLEWS Chart
● Identify potential investigations to answer the questions on the KLEWS Chart, adding the questions to the chart
The Anchoring Phenomenon Routine is the launch to student investigation around the anchoring phenomenon. This phenomenon will be the one that students will describe and explain, using disciplinary core ideas, science and engineering practices and crosscutting concepts in investigations. The Anchoring Phenomenon Routine will encourage thoughtful consideration of the phenomenon, initial models, connections to related phenomenon, discussions about the phenomenon and the creation of the KLEWS chart used for documenting student learning. In an Anchoring Phenomenon Routine, students:
● Are presented with a phenomenon or design problem
● Write and discuss what they notice and wonder about from the initial presentation
● Create and compare initial models of the phenomenon or problem
● Identify related experiences and knowledge that they could draw upon to explain the phenomenon or solve the problem
● Construct a KLEWS Chart
● Identify potential investigations to answer the questions on the KLEWS Chart, adding the questions to the chart
The Anchoring Phenomenon Routine is the launch to student investigation around the anchoring phenomenon. This phenomenon will be the one that students will describe and explain, using disciplinary core ideas, science and engineering practices and crosscutting concepts in investigations. The Anchoring Phenomenon Routine will encourage thoughtful consideration of the phenomenon, initial models, connections to related phenomenon, discussions about the phenomenon and the creation of the KLEWS chart used for documenting student learning. In an Anchoring Phenomenon Routine, students:
● Are presented with a phenomenon or design problem
● Write and discuss what they notice and wonder about from the initial presentation
● Create and compare initial models of the phenomenon or problem
● Identify related experiences and knowledge that they could draw upon to explain the phenomenon or solve the problem
● Construct a KLEWS Chart
● Identify potential investigations to answer the questions on the KLEWS Chart, adding the questions to the chart
The Anchoring Phenomenon Routine is the launch to student investigation around the anchoring phenomenon. This phenomenon will be the one that students will describe and explain, using disciplinary core ideas, science and engineering practices and crosscutting concepts in investigations. The Anchoring Phenomenon Routine will encourage thoughtful consideration of the phenomenon, initial models, connections to related phenomenon, discussions about the phenomenon and the creation of the KLEWS chart used for documenting student learning.
In an Anchoring Phenomenon Routine, students:
● Are presented with a phenomenon or design problem
● Write and discuss what they notice and wonder about from the initial presentation
● Create and compare initial models of the phenomenon or problem
● Identify related experiences and knowledge that they could draw upon to explain the phenomenon or solve the problem
● Construct a KLEWS Chart
● Identify potential investigations to answer the questions on the KLEWS Chart, adding the questions to the chart
The Anchoring Phenomenon Routine is the launch to student investigation around the anchoring phenomenon. This phenomenon will be the one that students will describe and explain, using disciplinary core ideas, science and engineering practices and crosscutting concepts in investigations. The Anchoring Phenomenon Routine will encourage thoughtful consideration of the phenomenon, initial models, connections to related phenomenon, discussions about the phenomenon and the creation of the KLEWS chart used for documenting student learning.
In an Anchoring Phenomenon Routine, students:
● Are presented with a phenomenon or design problem
● Write and discuss what they notice and wonder about from the initial presentation
● Create and compare initial models of the phenomenon or problem
● Identify related experiences and knowledge that they could draw upon to explain the phenomenon or solve the problem
● Construct a KLEWS Chart
● Identify potential investigations to answer the questions on the KLEWS Chart, adding the questions to the chart
In this activity, students discover the relationship between an object's mass and the amount of space it takes up (its volume). Students learn about the concept of displacement and how an object can float if it displaces enough water, and the concept of density and its relationship to mass and volume.
A conversation with Lisa Ackerman, World Monuments Fund, and Beth Harris, Smarthistory. Created by Beth Harris and Steven Zucker.
A conversation with Lisa Ackerman, World Monuments Fund, and Beth Harris, Smarthistory. Created by Beth Harris and Steven Zucker.
This course focuses on the archaeology of the Greek and Roman city. It investigates the relationship between urban architecture and the political, social, and economic role of cities in the Greek and Roman world, by analyzing a range of archaeological and literary evidence relevant to the use of space in Greek and Roman cities (e.g. Athens, Paestum, Rome, Pompeii) and a range of theoretical frameworks for the study of ancient urbanism.
This resource is a comprehensive overview of the world's ancient civilizations.
In the computer-based Ancient Civilizations activity, students create their own civilization and see how it fares over the years based on choices they make for location, animals, plants and materials. Students trade resources between their civilizations, repeatedly go to war with unnamed enemies, and learn some fun facts about real-world ancient civilizations along the way. This activity was inspired by Guns, Germs and Steel by Jared Diamond.
In the paper-based Ancient Civilizations activity, students create their own civilization and see how it fares over the years based on choices they make for location, animals, plants and natural resources. Students create an artistic rendering of their civilization, trade resources between their civilizations and go to war with an unnamed enemy. This activity was inspired by Guns, Germs and Steel by Jared Diamond.
For this project, student will create a video about an ancient civilization. The video should include information such as time period, geography as well as other information such as type of government, technologies used, art created, and political influence.
An inquiry-based unit that teaches the use of primary source analysis through artifacts from Ancient Egypt. Students are asked to analyze artifacts from their own family, analyze artifacts from King Tut’s tomb, and then create hypotheses about what we can learn from ancient artifacts. Finally, students will construct an argument and create a press release.
Three separate lessons covering the farming, trading, and geography of Ancient Egypt. Perferct for the beginning of studying Egypt in 6th grade. Each lesson includes pictures, articles, vocabulary to front load, and a quiz. The quizzes have both multiple choic and open ended questions.