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Work - Energy - Power – PPT

Work - Energy - Power – PPT

By using this ppt (4O slides), students will learn; - What PHYSICALLY WORK is - Relation between WORK & ENERGY - Types of ENERGY - How to convert one type of Energy into the other one - What the CONSERVATION of ENERGY is - Power & Efficiency of a MACHINE You should install these Fonts for this document; (Marker Felt & Tempus Sans ITC)
veyselbiga
Bundle - Work - Energy - Power

Bundle - Work - Energy - Power

This source contains; 1. Work - Energy - Power – PPT By using this This PPT (4O slides) Students will learn; - What PHYSICALLY WORK is - Relation between WORK & ENERGY - Types of ENERGY - How to convert one type of Energy into the other one - What the CONSERVATION of ENERGY is - Power & Efficiency of a MACHINE 2. Work - Energy - Power – Teachers Note; This document has 4 pages; - Work - Energy - Potential Energy - Kinetic Energy - Conservation of Energy - Power - Solving problems New Teachers can use this document as a lesson plan. 3. WORK - ENERGY POWER – Quiz; This EXAM PAPER has 4 pages, (2 Groups) 4. WORK - ENERGY POWER – Revision; This Revision PAPER has 4 pages with Answer Sheet You should install these Fonts for this document; (Marker Felt & Tempus Sans ITC)
veyselbiga
Circuit Arcade

Circuit Arcade

In this project students gain an understanding of the engineering design process by building a cardboard arcade game where winning or losing completes an electrical circuit. Students will present their arcade game to an audience of middle school or elementary school students. This project was developed by Allen Distinguished Educators Rob Rambach and Patrick Dempsey. SUBJECTS: • Science — electrical circuits, Newton’s Laws • Engineering Design— diagrams, prototyping, user feedback • Social Studies—marketing OUTCOMES: Students will be able to: • Construct a working electrical circuit. • Explain how electrons move through their circuit. • Learn from failure. • Design and build an arcade game incorporating the circuit for a specific audience. • Explain force and motion concepts that relate to their game. • Effectively use the engineering design process. ACADEMIC STANDARDS: • CCSS.ELA-LITERACY.SL.8.1 • CCSS.ELA-LITERCY.SL.8.1.A • CCSS.ELA-LITERACY.SL.8.1.B • CCSS.ELA-LITERACY.SL.8.5 • CCSS.ELA-LITERACY.SL.8.6 • MS-PS2-3 • MS-PS3-1 • MS-PS3-2 • MS-PS3-5 • MS-ETS1-1 • MS-ETS1-2 • MS-ETS1-3 • MS-ETS1-4
AllenEducators
53 Miles per Burrito

53 Miles per Burrito

In this engineering, math, and sustainability project students answer the question, “Can I ride 53 miles on a bike from the energy of a single burrito?” They must define their variables, collect and analyze their data, and present their results. By the end of this project, developed by Allen Distinguished Educator Mike Wierusz, students should have all the information they need to design a burrito that would provide them with the exact caloric content necessary to ride 53 miles. SUBJECTS: • Engineering • Design • Physics • Environmental Science OUTCOMES: Students will be able to: • Identify what they do and do not know about the problem. • Define problem variables and make a plan for solving the problem. • Collect relevant data. • Analyze their data using a spreadsheet program (e.g. Excel). • Make a technical presentation of their results. ACADEMIC STANDARDS: • MS-PS3: Energy • HS-ETS1: Engineering Design: • HS-LS2: Ecosystems: Interactions, Energy, and Dynamics: • 4PS-3: Energy • MS-PS3: Energy • MS-LS1: From Molecules to Organisms: Structures and Processes • MS-ETS1: Engineering Design • MS-PS1: Matter and its Interactions
AllenEducators
Increasing Efficiency: Streamlining Ships

Increasing Efficiency: Streamlining Ships

What is the most efficient design for a large tanker ship? BP Shipping transports oil, liquid natural gas and other products around the world. Efficient ships use less fuel, allowing BP Shipping to minimise its environmental impact. In this exciting real world challenge aimed at 11 to 14 year olds, teams of students are tasked with carrying out an investigation to find the most efficient design for a large tanker. Ideal for use in a STEM Club or in class, or even to run your own school competition. Download the introductory PowerPoint presentation and the Streamlining Ships delivery notes now. This resource was part of the Ultimate STEM Challenge 2015/2016. Visit http://on.bp.com/1nw1Dpu for the complete set of resources including: Increasing Efficiency: Better Buildings Increasing Efficiency: Trim Turbines
BPES