Check out these great video/curricular resources for Grade 11. The ROVER videos all indicate the curriculum outcomes that they address.

ROVER (Recommended Online Video Education Resources) is a video streaming service for Saskatchewan teachers and students in the PreK-12 education system. It is managed and maintained by the Saskatchewan Ministry of Education. ROVER is a video-on-demand service that provides teachers and students with the convenience of immediate access to streamed, educational videos that support curricula.

This site also offers all of the curriculum documents for all grade levels.

If you are unable to access the site, it may be because a Saskatchewan Ministry of Education Blackboard login is required. All students have an Edonline account, so contact your child's school or the Ministry of Education’s Support Desk at 1-866-933-8333 or email at stans@gov.sk.ca for login information. Your child's student number will be required.

Check out these great video/curricular resources for Grade 12. The ROVER videos all indicate the curriculum outcomes that they address.

ROVER (Recommended Online Video Education Resources) is a video streaming service for Saskatchewan teachers and students in the PreK-12 education system. It is managed and maintained by the Saskatchewan Ministry of Education. ROVER is a video-on-demand service that provides teachers and students with the convenience of immediate access to streamed, educational videos that support curricula.

This site also offers all of the curriculum documents for all grade levels.

If you are unable to access the site, it may be because a Saskatchewan Ministry of Education Blackboard login is required. All students have an Edonline account, so contact your child's school or the Ministry of Education’s Support Desk at 1-866-933-8333 or email at stans@gov.sk.ca for login information. Your child's student number will be required.

This lesson will start with a brief history of robotics and explain how robots are beneficial to science and society. The lesson then will explore how robots have been used in recent space exploration efforts. The engineering design of the two Mars rovers, Spirit and Opportunity, will be used as prime examples. Finally, the maneuverability of their robotic arms and the functionality of their tools will be discussed.

Students solidify their understanding of the terms "circumference" and "rotation" through the use of LEGO MINDSTORMS(TM) NXT robotics components. They measure the circumference of robot wheels to determine how far the robot can travel during one rotation of an NXT motor. They sharpen their metric system measurement skills by precisely recording the length of a wheel's circumference in centimeters, as well as fractions of centimeters. Through this activity, students practice brainstorming ways to solve a problem when presented with a given scenario, improve their ability to measure and record lengths to different degrees of precision, and become familiar with common geometric terms (such as perimeter and rotation).

Students learn about humankind’s search for life in outer space and how it connects to robotics and engineering. NASA is interested in sending exploratory missions to one of Jupiter’s moons, Europa, which requires a lot of preparatory research and development on Earth before it can happen. One robot currently being engineered as a proof of concept for a possible trip to explore Europa is the Icefin, which is an innovative robot that can explore under ice and in water, which are the believed conditions on Europa. This lesson provides students with intriguing information about far off (distance and time!) space missions and field robotics, and also sets up two associated robotics and arts integration activities to follow. The lesson can be used individually to provide new information to students, or as a precursor to the associated activities. A PowerPoint® presentation and worksheet are provided.

Students develop an understanding of the concepts of "push" and "pull" as they "save" stuffed animals from danger using LEGO MINDSTORMS(TM) NXT robots. After learning more about the concepts through a robot demonstration, students explore the concepts themselves in the context of saving stuffed animala from the table edges. They choose to either push or pull the animal to safety, depending on the orientation of the robot and toy. They see the consequences of their choices, learning the importance of understanding these force concepts and the differences between them.

Please note:
*You will need to be logged into your blackboard account to access these resources
*Click the green button on the left to enrol to gain access
*Contact network services if you require support at stans@gov.sk.ca or 1-866-933-8333

The Secondary PAA Implementation Support organization houses a variety of materials to support the implementation of several PAA curricula. As members of implementation working teams, teachers developed, adapted or identified resources/materials for:

Accounting 10, 20, 30;
Career and Work Exploration 10, 20, A30, B30;
Financial Literacy 20, 30;
Information Processing 10, 20, 30; and,
Robotics and Automation 10, 20, 30.
Disclaimer: These resources have not undergone a formal evaluation. Due to copyright permissions, full access to this space is limited to educators in Saskatchewan.

Educators can self-enrol in the organization after logging into Blackboard. Please note that any teacher in Saskatchewan has access to these resources.

"Skills Canada Saskatchewan is a not-for-profit Provincial Organization that promotes skilled trades and technologies to young people in Saskatchewan."

This site has a wealth of information about skills and tech and the trades in SK.

*Skills for success - learn about the skills you need for success - videos
*Skills competitions - find skills competitions
*Skills Profiles - learn about construction, employment, IT, manufacturing & engineering, services and transportation skills
*Programs - trade & tech days, National Skilled Trade and Tech Week

The Software Engineering Program (SEP) is a multi-year, comprehensive, standards-aligned computer science education program for grades 6 to 12. The goals of the program are:

-Increase the number of high school graduates, particularly from traditionally underrepresented groups, that are ready to pursue new and emerging technology-driven roles across industries.

-Develop student computational thinking and problem-solving skills in real-world contexts.

The SEP curriculum gives students instruction and experience in the following areas: computer programming, robotics, web design, physical computing, and game design. SEP students participate in local and central hackathons, and in work-based experiences with major industry leaders and partners.

Students generally do not know the complexity that goes into building and programming a robotic arm. In actuality, creating such an arm comes from a design that involves mechanical, electrical, and computer science engineers. This activity allows students to control a robotic arm from both a machine's and a computer science engineer's perspective by letting them perform a simple task with a few entertaining instructions and constraints.

Students learn basic concepts of robotic logic and programming by working with Boe-Bot robots—a simple programmable robotic platform designed to illustrate basic robotic concepts. Under the guidance of the instructor and a provided lab manual, student groups build simple circuits and write codes to make their robots perform a variety of tasks, including obstacle and light detection, line following and other motion routines. Eight sub-activities focus on different sensors, including physical sensors, phototransistors and infrared headlights. Students test their newly acquired skills in the final activity, in which they program their robots to navigate an obstacle course.

In this unit of study, students will learn about and experience the fundamentals of using the Scrum framework for product development. This unit was applied to a VEX robotics team. This unit integrates nine STEM attributes and was developed as part of the South Metro-Salem STEM Partnership's Teacher Leadership Team. Any instructional materials are included within this unit of study.

"Technology is constantly advancing. So it should be no surprise that learning and training tools are keeping pace. We are proud to bring job seekers and employers across Saskatchewan incredibly powerful career exploration options utilizing virtual reality technology. Having the ability to test the waters and explore potential career options before taking the next step in pursuing a career can be a powerful motivator.

Job seekers and individuals across the province will now have the opportunity to use these tools to help them secure in-demand jobs within Saskatchewan."

View simulations for a variety of careers in SK!

This lesson introduces students to the major characteristics of robots. The associated activity uses the LEGO MINDSTORMS(TM) NXT system as an example. Before studying robots in more detail, it is important for students to consider the many items they encounter in their daily lives that are robots so they can explore ways engineers can utilize robotics to solve problems in everyday life.The activity also serves as an introduction to the LEGO NXT system so that students may utilize it as an educational tool in subsequent lessons and activities.

"Workbench is an innovative one-stop shop for teachers to find and share lessons and projects that support both core and STEAM curricula. Forge real-world connections by creating a meteorologist's report about local weather, bring the maker movement to life by creating earthquake-proof Lego buildings, or encourage students to learn JavaScript through scaffolding lessons that increase in difficulty. Flip your classroom by assigning videos and independent learning tasks, and then have students collaborate in class to perform experiments or create media.

Struggling with differentiation? Individually assign projects by area of interest or level of complexity, adding in supports as needed via videos, guiding questions, and progress monitoring. Build higher-order thinking skills by asking open-ended questions, tracking student progress, and viewing responses in real time. Create classes and assignments on Workbench, in Google Classroom, or by using Clever to sync with your school's learning management system (LMS)." (Common Sense Media Review)

***Filter lessons by subject and grade!

Students learn about trigonometry, geometry and measurements while participating in a hands-on interaction with LEGO® MINDSTORMS® NXT technology. First they review fundamental geometrical and trigonometric concepts. Then, they estimate the height of various objects by using simple trigonometry. Students measure the height of the objects using the LEGO robot kit, giving them an opportunity to see how sensors and technology can be used to measure things on a larger scale. Students discover that they can use this method to estimate the height of buildings, trees or other tall objects. Finally, students synthesize their knowledge by applying it to solve similar problems. By activity end, students have a better grasp of trigonometry and its everyday applications.