Percent Increase and Decrease Quiz
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Virtualization : Containers | CCNA 200-301 Prep and Networking Lessons
This is a lesson on Container Virtualization. Perfect for teaching ICT, Computer Science, Networking, Cloud, or certification prep (CCNA, DevNet, CompTIA Cloud+, Docker & Kubernetes training), it gives you everything you need to introduce, explain, and demonstrate how ◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆ Things we’ll coverReview of Virtual MachinesType 1/Type 2 HypervisorsContainers (ie. Docker)Virtual Machines vs. Containers◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆◇◆ Formats Provided✯ PPTX (editable PowerPoint)✯ PDF (print
9th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Also included in: The Ultimate CCNA & Networking BUNDLE [ From Zero to Network Pro ]
Rube Goldberg Project Based Learning Engineering Design & Critical Thinking
Bring creativity, logic, and engineering together with this Rube Goldberg Project-Based Learning Challenge for grades 4–6! Students will dive into the fascinating world of Rube Goldberg, an inventor and cartoonist famous for his comically complicated machines that perform simple tasks. This engaging 2+ hour activity encourages students to think outside the box, analyze inventions, and design their own Rube Goldberg machine inside a head. Perfect for independent work, whole-class learning, ce
4th - 6th
Close Reading, Engineering, Science
CCSS, NGSS
RI.4.3
, RI.5.3
, RI.6.3
+9
Design a Cell Phone Project | STEM, Entrepreneurship, PBL for GATE & Teamwork
Challenge your students to think like designers, innovators, and entrepreneurs with this STEM cell phone design project that blends real world problem solving with creativity and team collaboration. In this project based learning activity, students research, design, and model their own innovative phone, complete with branding, marketing, and a pitch presentation! Whether you're teaching STEAM, GATE, enrichment, or careers, this activity builds valuable life skills like creative problem solving,
5th - 10th, Higher Education
Engineering, For All Subjects
Stomp Rocket STEM Unit – Space Forces & Motion Engineering | Grade 2 | 2-Week
In the Stomp Rocket Launch & Redesign unit, students become aerospace engineers as they design, launch, measure, and redesign paper stomp rockets to maximize flight distance. Set inside the Ocean Explorers narrative theme, this 2-week unit challenges Grade 2 students to investigate how rocket fin design, nose cone shape, and launch force affect flight — collecting real distance data and using it to make evidence-based redesign decisions before their final launch. What Students Will Do* Investig
2nd
Engineering, General Science, Physics
NGSS
K-2-ETS1-2
, K-2-ETS1-3
, K-2-ETS1-1
+4
Priority Queue Complete Lesson | Operations, Diagrams & Examples included
This lesson teaches students how priority-based data processing works, showing how elements are stored, ordered, and removed based on priority rather than insertion order. Learners understand why priority queues are essential in real systems and how they are implemented using linked lists and heaps, including a full C++ template-based implementation. ────────── ⋆⋅☆⋅⋆ ────────── 🧠 What Students Will Actually Master ✨✨ ✏️ What a Priority Queue is and why it’s used ✏️ Difference between a
10th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
A Beginner-Friendly Lesson on CNN Architecture, Layers & How They Work
This is a complete lesson on Convolutional Neural Networks (CNNs) — one of the most essential architectures in Deep Learning and Computer Vision. Perfect for Machine Learning, Artificial Intelligence, Data Science, Computer Science, and advanced ICT courses at the high school, college, university, or bootcamp level. The lesson explains what CNNs are, how they work, why they are powerful, and what each component does, supported with clear diagrams, real examples, architecture visuals, filter ex
9th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Algorithm Analysis & Design: Limits, Growth Rates & Runtime Analysis
This lesson provides a complete foundation in Orders of Growth within Algorithm Analysis and Design, covering relative rates of growth, logarithmic, polynomial, exponential and factorial functions, limits-based comparisons, L’Hôpital’s Rule, Stirling’s Formula, and Big-O classifications. ────────── ⋆⋅☆⋅⋆ ────────── What’s Included 💡 Full Orders of Growth Slide Deck (PPT + PDF)💡 Growth comparison graphs and figures💡 Worked mathematical examples using limits💡 Algorithm runtime estimat
9th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Also included in: Algorithm Analysis & Design | Complete Step-by-Step Curriculum
Algorithm Analysis & Design: Mathematical Analysis of Recursive Algorithms
This lesson provides a complete, concept-clear foundation in the Mathematical Analysis of Recursive Algorithms, covering recurrence relations, basic operation counting, forward and backward substitution, and mathematical evaluation of recursive algorithm efficiency. ────────── ⋆⋅☆⋅⋆ ────────── What’s Included 💡 Full Mathematical Analysis of Recursive Algorithms Slide Deck (PPT + PDF)💡 Worked recursive algorithm examples💡 Forward and backward substitution solutions💡 Operation-count
10th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Also included in: Algorithm Analysis & Design | Complete Step-by-Step Curriculum
Merge Sort Complete Lesson | Operations, Diagrams & Examples included
This lesson teaches students how efficient sorting works at scale using Merge Sort, a classic divide-and-conquer algorithm known for its consistent performance. Learners clearly see how an array is recursively divided, how sorted subarrays are merged, and why Merge Sort outperforms basic sorting algorithms—all supported by a complete C++ implementation. ────────── ⋆⋅☆⋅⋆ ────────── 🧠 What Students Will Actually Master ✨✨ ✏️ What Merge Sort is and why it’s efficient ✏️ The Divide & C
9th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Binary Search Complete Lesson | Operations, Diagrams & Examples Included
This lesson teaches students how efficient searching works by contrasting sequential search with binary search, showing why sorted data enables dramatically faster lookups. Learners clearly see how search space is reduced by half at every step, how indices move during execution, and how binary search achieves logarithmic performance—all supported by a complete C++ program. ────────── ⋆⋅☆⋅⋆ ────────── 🧠 What Students Will Actually Master ✨✨ ✏️ What searching algorithms are and why they
10th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Bubble Sort complete Lesson | Operations, Diagrams & Examples included
This lesson introduces students to how sorting works at the most fundamental level, using Bubble Sort to show how comparisons and swaps gradually bring order to data. Learners clearly see how values move step by step, why multiple passes are required, and how sorting algorithms operate internally—supported by a simple, complete C++ program. ────────── ⋆⋅☆⋅⋆ ────────── 🧠 What Students Will Actually Master ✨✨ ✏️ What sorting is and why it’s important ✏️ Core idea behind Bubble Sort✏️ How
10th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Evaluating Postfix Expression | Operations, Diagrams & Examples included
This lesson shows students how expressions are actually evaluated by computers by breaking down prefix, infix, and postfix notation and implementing a complete postfix expression evaluator using stacks in C++. Instead of memorizing rules, learners see how operator precedence disappears in postfix form and how stacks power real expression evaluation step by step. ────────── ⋆⋅☆⋅⋆ ────────── 🧠 What Students Will Actually Master ✨✨ ✏️ Difference between infix, prefix, and postfix expressio
10th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Infix to Postfix Conversion Complete Lesson | Operations & Examples included
This lesson teaches students how algebraic expressions are converted into machine-friendly form, showing exactly how stacks are used to transform infix expressions into postfix notation. Learners move from rules and precedence tables to real algorithms and working C++ code, building a strong foundation for expression evaluation, compilers, and advanced stack applications. ────────── ⋆⋅☆⋅⋆ ────────── 🧠 What Students Will Actually Master ✨✨ ✏️ Difference between infix, prefix, and postfix
10th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Introduction to tmux | Terminal Multiplexer, Sessions, Windows, Panes & Shortcut
This resource is a step-by-step introductory lesson on tmux (Terminal Multiplexer). Perfect for Linux, DevOps, Programming, Cybersecurity, Networking, and Command Line courses where learners work heavily inside the terminal and need persistent, organized sessions (e.g., SSH, servers, or remote development). It teaches students how to run multiple terminal sessions from a single window, manage sessions, windows, and panes, and use tmux for productive multitasking in the command line. The less
10th - 12th, Adult Education, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Wheel & Axle STEM Challenge – Rover Engineering Design Activity | Grades K–8
In the Paper Clip Rover Suspension Test, students become mechanical and aerospace engineers as they design and test a suspension system for a miniature rover using only paper clips and simple classroom materials. This hands-on STEM challenge introduces students to shock absorption, stability, force, motion, and structural engineering as they work to protect their rover from rough terrain and impact forces. This engaging, low-prep engineering activity is ideal for STEM labs, science classroom
K - 8th
Engineering, For All Subjects, Physics
NGSS
3-5-ETS1-3
, 3-5-ETS1-1
, 3-5-ETS1-2
![Preview of Introduction to Input and Output Hardware in Computer Science [Complete Lessons]](https://ecdn.teacherspayteachers.com/cdn-cgi/image/format=avif,quality=70,width=525,height=525,onerror=redirect/thumbitem/Introduction-to-Input-and-Output-Hardware-in-Computer-Science-Complete-Lessons--13413099-1752929603/750f-13413099-1.jpg)
Introduction to Input and Output Hardware in Computer Science [Complete Lessons]
This lesson introduces students to the essential Input and Output (I/O) hardware devices used in Computer Science, Programming, Coding and Software Engineering. Learners explore how devices like keyboards, mice, monitors, printers, and sensors interact with computer systems. ▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧ The Following Are Included in This Curriculum✤ PDF Lessons ✤ PowerPoint Presentations ✤ PowerPoint Compatible Mode ▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧ Format & Features✤ PDF✤ PowerPoint✤ Editable ✤ Int
4th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
![Preview of Introduction to Operating Systems in Computer Science & Programming [Lessons].](https://ecdn.teacherspayteachers.com/cdn-cgi/image/format=avif,quality=70,width=525,height=525,onerror=redirect/thumbitem/Introduction-to-Operating-Systems-in-Computer-Science-Programming-Lessons--13419114-1752930873/750f-13419114-1.jpg)
Introduction to Operating Systems in Computer Science & Programming [Lessons].
This lesson offers a complete introduction to Operating Systems (OS) in Computer Science. It covers everything learners need to know about what an operating system is, its functions, types (like Windows, Mac OS, Linux), and why it is essential for computers and mobile devices. The lesson is designed to be beginner-friendly, interactive, and easy to follow, making complex concepts simple through clear explanations, diagrams, and real-world examples. ▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧ The Followin
4th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
![Preview of Introduction to Operating Systems in Computer Science & Programming [Lessons].](https://ecdn.teacherspayteachers.com/cdn-cgi/image/format=avif,quality=70,width=525,height=525,onerror=redirect/thumbitem/Introduction-to-Operating-Systems-in-Computer-Science-Programming-Lessons--13371213-1752930945/750f-13371213-1.jpg)
Introduction to Operating Systems in Computer Science & Programming [Lessons].
This Google Slides lesson offers a complete introduction to Operating Systems (OS) in Computer Science. It covers everything learners need to know about what an operating system is, its functions, types (like Windows, Mac OS, Linux), and why it is essential for computers and mobile devices. The lesson is designed to be beginner-friendly, interactive, and easy to follow, making complex concepts simple through clear explanations, diagrams, and real-world examples. ▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧▧
4th - 12th, Higher Education
Computer Science - Technology, Engineering, Instructional Technology
Parachute Drop STEM Unit – Mr. B Engineering Games | Grade 4 | 3-Week
In the Drop Zone Parachute Delivery Challenge, students become aerospace delivery engineers as they design and build a parachute system capable of transporting a payload from a fixed drop height to a target landing zone. Set inside Mr. B Engineering Games, this 3-week flagship unit immerses Grade 4 students in the real science of drag, stability, and payload protection as they plan, build, test, and redesign through the full Engineering Design Process. What Students Will Do* Investigate how dra
4th
Engineering, General Science, Physics
NGSS
3-5-ETS1-3
, 3-5-ETS1-1
, 3-5-ETS1-2
Earthquake Tower STEM Sprint – Structural Engineering | Grade 3
In the Earthquake-Resistant Signal Tower challenge, students become structural engineers designing a communication tower for a futuristic city built in an earthquake zone. Set inside the Future City Engineering narrative theme, this 3-week flagship unit immerses Grade 3 students in the real engineering challenge of balancing height and stability — planning a tower within material budget constraints, building and shake-testing it, using data to redesign, and presenting final results in a class a
3rd
Engineering, General Science, Physics
NGSS
3-PS2-1
, 3-5-ETS1-3
, 3-PS2-3
+4
Tower Optimization STEM Unit – Budget-Constrained Engineering | Grade 5 | 2-Week
In the Tower Optimization Lab, students become budget-constrained structural engineers as they build the tallest freestanding tower that can support a load at its apex while staying within a strict material budget — applying the efficiency ratio framework from the bridge unit to a new structural challenge. Set inside the STEAM Lab Design Academy narrative, this 2-week unit teaches Grade 5 students that engineers always work within resource constraints. What Students Will Do* Receive a material
5th
Engineering, General Science, Physics
NGSS
3-5-ETS1-3
, 3-5-ETS1-1
, 5-PS2-1
+1
Structural Engineering STEM Stations – Wildlife Team Challenge | Grade 3
In the Wildlife Engineering Relay Championship, students become multi-challenge engineers as they compete in four rapid-fire engineering sprints using index cards, tape, and straws — closing out the Grade 3 STEAM year with energy, teamwork, and celebration. Set inside the Wildlife Documentary Crew narrative theme, this flex-week championship runs four back-to-back challenges: tallest freestanding tower, widest bridge span, strongest platform, and paper airplane distance toss, with a running tal
3rd
Engineering, General Science, Physics
NGSS
3-PS2-1
, 3-5-ETS1-3
, 3-PS2-3
+4
Build a bridge STEM Challenge | Engineering Design Process Worksheets
Engineering Design Challenge | Low-Prep STEM ActivityThis resource is a structured engineering design challenge that guides students through the Engineering Design Process (EDP) while solving a real-world problem. Students will plan, build, test, and improve a design using clear criteria, measurable constraints, and data collection. What’s Included Student worksheet with the full design challenge Defined criteria and constraints Data table for multiple test variables Structured reflection
6th - 8th
Engineering, Other (Science)
NGSS
MS-ETS1-4
, MS-ETS1-3
STEM Catapult Design | Engineering Catapult Design Worksheet | Middle School
Engineering Design Challenge | Low-Prep STEM ActivityThis resource is a structured engineering design challenge that guides students through the Engineering Design Process (EDP) while solving a real-world problem. Students will plan, build, test, and improve a design using clear criteria, measurable constraints, and data collection. What’s Included Student worksheet with the full design challenge Defined criteria and constraints Data table for multiple test variables Structured reflection
6th - 8th
Engineering, Other (Science)
NGSS
MS-ETS1-4
, MS-ETS1-3
Showing 1-24 of 40+ results
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