From The Concord Consortium website.
Meet Geniverse: online, interactive genetics software for high school and other students. Geniverse is a game-like environment that supports experimentation, critical thinking and writing about genetics. Geniverse is designed for teachers to play an active role in the classroom by guiding students to understand and make connections to real-world genetics. Geniverse shares a pedigree with past Concord Consortium projects reaching back to the pioneering GenScope software and is built upon the same compelling premise students explore genetics by breeding and studying virtual dragons.
 
A captivating narrative creates an authentic context for students to dive into genetics. Students use a virtual model species (drakes) to explore the fundamental mechanisms of heredity and genetic diseases and then get a taste of careers in genetics. While following a courageous protagonist on a quest to heal a beloved dragon, students generate their own experimental data as they complete Geniverse challenges. They "publish" their findings using the scientific practice of argumentation, supporting their claims with evidence and reasoning, first in writing, and then in class discussions.
 
For instructions on getting started with Geniverse along with printable teacher guides, lesson plans and student handouts, visit Geniversity, our teacher resource website!
 From <https://concord.org/stem-resources/geniverse>

This course will focus on understanding aspects of modern technology displaying exponential growth curves and the impact on global quality of life through a weekly updated class project integrating knowledge and providing practical tools for political and business decision-making concerning new aspects of bioengineering, personalized medicine, genetically modified organisms, and stem cells. Interplays of economic, ethical, ecological, and biophysical modeling will be explored through multi-disciplinary teams of students, and individual brief reports.

Students construct a model roadway with congestion and apply their knowledge of level of service (LOS) to assign a grade to the road conditions. The roadway is simply a track outlined with cones or ropes with a few students walking around it to mimic congestion. The remaining students employ both techniques of density and flow to classify the LOS of the track.

In this five part series, see all the pieces that come together for guided reading in Jenna Ogiers classroom. Students learn to work independently and rotate through stations, while Ms. Ogier meets with small groups of students and delivers a lesson at their level.

In this five part series, see all the pieces that come together for guided reading in Jenna Ogiers classroom. Students learn to work independently and rotate through stations, while Ms. Ogier meets with small groups of students and delivers a lesson at their level.

In this five part series, see all the pieces that come together for guided reading in Jenna Ogiers classroom. Students learn to work independently and rotate through stations, while Ms. Ogier meets with small groups of students and delivers a lesson at their level.

In this five part series, see all the pieces that come together for guided reading in Jenna Ogiers classroom. Students learn to work independently and rotate through stations, while Ms. Ogier meets with small groups of students and delivers a lesson at their level.

In this five part series, see all the pieces that come together for guided reading in Jenna Ogiers classroom. Students learn to work independently and rotate through stations, while Ms. Ogier meets with small groups of students and delivers a lesson at their level.

This lesson emphasizes the connections between science and mathematics by using a performance, or authentic, assessment format. Students will develop measurement skills as they relate the size of their fists to the size of their hearts. Students have the opportunity to explore applications involving their own hearts. An activity sheet (pdf) is included.

In this lesson, students use historical nonstandard units (digits, hand, cubit, yard, foot, pace, fathom) to estimate the lengths of common objects and then measure using modern standard units. They will discover the usefulness of standardized measurement units and tools. An activity sheet (pdf), assessment options and other commentary are provided.

The activities in this 6-lesson unit use fish-shaped crackers to help students develop their understanding of comparative subtraction by exploring five meanings of subtraction (counting, sets, number line, balance, and inverse of addition). Students investigate properties of subtraction, represent subtraction with objects and pictures, record subtraction with vertical notation and equations, create and solve problems, and carry out missing addend activities. Lessons include questions for student discussion and teacher reflection, extensions, printable student sheets, assessment options, and links to online applets.

In this lesson, students explore how human activities will continue to impact Antarctic ice, discuss human contributions to climate change, and investigate what we can do to stop/reverse these negative effects.

Students are introduced to the concepts of evolution by natural selection and digital evolution software. They learn about the field of evolutionary computation, which applies the principles of natural selection to solve engineering design problems. They learn the similarities and differences between natural selection and the engineering design process.

During this course, we will be exploring basic questions of architecture through several short design exercises. Working with many different media, students will discover the interrelationship of architecture and its related disciplines, such as structures, sustainability, architectural history and the visual arts. Each problem will focus on one of these disciplines and one exploration and presentation technique.

In this lesson plan from Illuminations, students use relationship rods to explore fraction relationships. Relationship rods range in length from one to ten centimeters, and each rod is a different color. An activity sheet with solutions, questions for students, assessment options, and suggested extension activities are included. The lesson plan is part of a five lesson plan unit, Fun with Fractions, which is cataloged separately.

This Java interactive tool can be used to create dynamic drawings on an isometric dot grid, and to explore volume, surface area, and congruence concepts. Users can draw figures using edges, faces, or cubes and can shift, rotate, color, decompose, and view figures in 2‑D or 3‑D with this applet. Instructions on using and exploring with the tool are included on the page. A related multi-lesson unit from Illuminations for middle school students is linked to the side.

Students learn about complex networks and how to use graphs to represent them. They also learn that graph theory is a useful part of mathematics for studying complex networks in diverse applications of science and engineering, including neural networks in the brain, biochemical reaction networks in cells, communication networks, such as the internet, and social networks. Students are also introduced to random processes on networks. An illustrative example shows how a random process can be used to represent the spread of an infectious disease, such as the flu, on a social network of students, and demonstrates how scientists and engineers use mathematics and computers to model and simulate random processes on complex networks for the purposes of learning more about our world and creating solutions to improve our health, happiness and safety.

This lesson introduces students to the measurable attribute of length and provides practice in measuring length using non-standard units. The lesson is launched using the story Ladybug on the Move by Richard Fowler. Lesson objectives, teaching ideas, and handouts are included.

In this 6-lesson unit students develop concepts of number, relationships between numbers, and equality. They make groups of 10 to 20 objects, connect number names to the groups, compose and decompose numbers, and use numerals to record the size of a group. Each lesson includes visual, auditory, and kinesthetic activities, as well as student activity sheets, questions for teachers and students, ideas for assessment and extensions, and links to electronic applets.

Students groups act as aerospace engineering teams competing to create linear equations to guide space shuttles safely through obstacles generated by a modeling game in level-based rounds. Each round provides a different configuration of the obstacle, which consists of two "gates." The obstacles are presented as asteroids or comets, and the linear equations as inputs into autopilot on board the shuttle. The winning group is the one that first generates the successful equations for all levels. The game is created via the programming software MATLAB, available as a free 30-day trial. The activity helps students make the connection between graphs and the real world. In this activity, they can see the path of a space shuttle modeled by a linear equation, as if they were looking from above.