Getty Images
Store logo in digital space, animation consists of a stream of numbers and symbols
Store logo in digital space, animation consists of a stream of numbers and symbols
Getty Images
The logo of a person in the digital space, animation consists of a stream of numbers and symbols
The logo of a person in the digital space, animation consists of a stream of numbers and symbols
Getty Images
Clean White and gray movement of black three-dimensional plexus particles on a white background Geometrical background with flying particles and lines seamless loop animation background
Abstract Digital Concept of Geometrical Figures: Polygon Plexus Fractals Moving, Connecting Between Particles. Triangular Technological Concept Seamless Loop Background Animation
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Modern Technological Rotary Background With Connections And Nodes. Dynamic plexus with numbers. Futuristic technology lines, triangles and dots. Network Connections Seamless Loop Background
Abstract polygonal Digital Geometrical Polygon Plexus Fractals Moving low poly Technologies Minimalist design element Seamless loop background for corporate business presentation
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Modern Technological Rotary Background With Connections Dynamic plexus with numbers. Futuristic technology Abstract lines, triangles and dots. Network Connections Seamless Loop Background
Abstract Geometric Clean White Futuristic low poly shape technology Connections Molecular, Global Business Network Design structure loop Background. business, science, technology, presentation.
Getty Images
Modern Technological Rotary With Connections And Nodes. Dynamic plexus with numbers. Futuristic technology Abstract lines, triangles and dots. Network Connections Seamless Loop Background
Abstract Geometric Clean White Futuristic low poly shape technology Connections Molecular, Global Business Network Design structure loop Background. business, science, technology, presentation.
Getty Images
Crystal structure abstract modern polygonal motion background. Modern Futuristic Geometrical futuristic soft minimalist low poly polygonal shape triangle hi-tech Seamless Loop Background.
Abstract Digital Concept of Geometrical Figures: Polygon Plexus Fractals Moving, Connecting Between Particles. Triangular Technological Concept Seamless Loop Background Animation
Physics Girl
How Do Touchscreens Work?
Why can't we text when wearing wool gloves? The narrator explains the science behind touchscreens as part of a larger physics series. From sensors to translation, the complex process of sending a simple emoji comes to life.
Crash Course
Silicon - The Internet's Favorite Element
Is silicon the same in Spanish? Si. Here is a video that focuses on silicon, including its network solids and network arrangements. It makes connections to solid-state semiconductors, n-type and p-type semiconductors, diodes,...
PBS
Career Connections | Network Architect
Network architects are the people who build those computer networks that we use every day. Advice? "Keep learning!" binary.
PBS
Career Connections | Software Developer Dayton
Like coding and 3-D design, like working with computers and with people? A career as a software developer might be in your future. Find out what's involved by watching a short video narrated by a software developer.
PBS
Hot Shots and Hot Jobs: Software Engineers Create Solutions through Code
Tech is cool! That's the takeaway from a short video that details the challenges and rewards of being a software engineer.
Crash Course
Computer Engineering and the End of Moore's Law: Crash Course Engineering #35
Engineers make better computers, and computers make better engineers. An informative video describes the components of computers, including both hardware and software, and how engineers have a hand in improving these components. It...
TED-Ed
How Exactly Does Binary Code Work?
As far as languages go, binary is pretty easy to learn. Scholars watch an informative video on binary code. It explains the basics of how binary code works, and then shows how people encode colors and sound as binary code.
PBS
Real-Life Math | Network Engineer
Learn a bit about binary code. Pupils find out what network engineers do by watching a video in which a real-life engineer explains the math she uses in her job. As an associated activity, they consider how binary numbers work and answer...
Code.org
The Internet: Wires, Cables and WiFi
You thought hooking up your TV was difficult! Scholars learn about the various components that allow Internet users to send information across vast distances. This includes wires, fiber optic cables, and WiFi.
Code.org
How Computers Work: Binary and Data
There are two types of people in the world: those who understand binary and those who do not. Pupils watch a video that describes how computers store information using binary code. They learn how programmers can encode text, images, and...
MinutePhysics
How to Subtract By Adding
Investigate the claim that 999997=-3. Learners discover how to subtract large numbers using a quick method of addition. The video provides examples and shows how adding machines and computers apply this approach to subtraction.
Crash Course
The First Programming Languages: Crash Course Computer Science #11
Computers need to know a lot of languages, n'est-ce pas? Scholars learn about advances in computer programming, from assemblers and compilers to more recent programming languages. They learn how these advances led to a shift in...
Crash Course
Registers and RAM: Crash Course Computer Science #6
Computers need to remember their addresses, too. Scholars learn about random access memory (RAM) by watching a video. They see how computers store memory and how circuits require memory addresses to access memory.
Crash Course
Boolean Logic and Logic Gates: Crash Course Computer Science #3
Boolean logic just makes sense. A video teaches individuals about Boolean logic and its connection to the binary system. It shows how the operations NOT, AND, OR, and XOR are shown on electric circuits using transistors.
PBS
The Mathematics of Quantum Computers
Scholars learn about the basics of quantum computing, starting with Schrodinger's Cat through a video that explains the mathematics behind quantum computers, including the representation of quantum gates as matrices.