Search Resources

4 Results

View
Selected filters:
  • VA.MTH.8.7.a
Algorithm Picture Lesson
Conditional Remix & Share Permitted
CC BY-NC
Rating

The goal of this activity is to build critical thinking skills and excitement for Computer Science / Computational Thinking, while laying a foundation of fundamental programming concepts. By scaffolding basic concepts like sequencing and algorithms in an unplugged activity, students who are intimidated by computers can still build a foundation of understanding. In this lesson, students will learn how to develop an algorithm and encode it into a program.By "programming" one another to draw pictures, students experience some of the core concepts of programming in a fun and accessible way. The class will start by having students view a video of a simple program demonstrating how to develop instructions for building a peanut butter and jelly sandwich. Students will start with simple shapes, and progress to the coding of a specific drawing that other students will then try to replicate (“running the program”). If there is a desire to have a more of a Math slant on the lesson, the drawing could take place on graph paper. Students would then use the coordinates to complete the drawing. 

Subject:
Computer Science
Algorithms and Programming
Business and Information Technology
English
Health/Physical Education
Mathematics
Science
Material Type:
Activity/Lab
Lesson
Lesson Plan
Visual Media
Author:
Michael Speidel
Sharon Brandon
Date Added:
10/13/2020
Grade 8 Module 2: The Concept of Congruence
Conditional Remix & Share Permitted
CC BY-NC-SA
Rating

In this module, students learn about translations, reflections, and rotations in the plane and, more importantly, how to use them to precisely define the concept of congruence. Up to this point, congruence has been taken to mean, intuitively, same size and same shape. Because this module begins with a serious study of geometry, this intuitive definition must be replaced by a precise definition. This module is a first step; its goal is to provide the needed intuitive background for the precise definitions that are introduced in this module for the first time.
To access this resource, you will need to create a free account for the system on which it resides. The partner provides personalized features on their site such as bookmarking and highlighting which requires a user account.

Subject:
Mathematics
Material Type:
Module
Provider:
Eureka Math (Great Minds)
Date Added:
11/19/2019
Grade 8 Module 3: Similarity
Conditional Remix & Share Permitted
CC BY-NC-SA
Rating

In Module 3, students learn about dilation and similarity and apply that knowledge to a proof of the Pythagorean theorem based on the angle-angle criterion for similar triangles. The module begins with the definition of dilation, properties of dilations, and compositions of dilations. The instruction regarding dilation in Module 3 is structured similarly to the instruction regarding concepts of basic rigid motions in Module 2. One overarching goal of this module is to replace the common idea of "same shape, different sizes" with a definition of similarity that can be applied to geometric shapes that are not polygons, such as ellipses and circles.
To access this resource, you will need to create a free account for the system on which it resides. The partner provides personalized features on their site such as bookmarking and highlighting which requires a user account.

Subject:
Mathematics
Material Type:
Module
Provider:
Eureka Math (Great Minds)
Date Added:
11/19/2019
Transformations
Conditional Remix & Share Permitted
CC BY-NC
Rating

Applying TransformationsMathematics Instructional Plans (MIPs) help teachers align instruction with the 2016 Mathematics Standards of Learning (SOL) by providing examples of how the knowledge, skills and processes found in the SOL and curriculum framework can be presented to students in the classroom

Subject:
Mathematics
Measurement and Geometry
Material Type:
Lesson Plan
Author:
Virginia Hodge
Kristin Williams
Tina Mazzacane
Date Added:
04/16/2020