In recent times, output devices examples has become increasingly relevant in various contexts. Input & outputdevices | AP CSP (article) | Khan Academy. There are many other ways a computer could output data. As long as the output device can interpret a stream of 1s and 0s, it can turn that data into anything - headphones output sound, printers output ink on paper, and projectors output light. CPU, memory, input & output (video) | Khan Academy. Moreover, for example, a speaker will play sound and a 3-D printer will print an object.
Output devices can also control physical motion, like a robotic arm, the motor of a car, or the cutting tool of the milling machine that my company makes. What are the parts of a computer? (article) | Khan Academy. At a high level, all computers are made up of a processor (CPU), memory, and input/output devices. Each computer receives input from a variety of devices, processes that data with the CPU and memory, and sends results to some form of output.
It's important to note that, cPU: Central Processing Unit | AP CSP (article) | Khan Academy. It's impressive that we can put together seemingly simple devices like logic gates to create CPUs that power complex devices like our phones, computers, and even self-driving cars. Computer memory (RAM) | AP CSP (article) | Khan Academy. A desktop computer has RAM memory, as the running applications uses the RAM to store data temporarily.
A desktop computer also has a CPU, input and output devices, and a hard drive ("secondary" memory). Input and output devices (practice) | Khan Academy. It's important to note that, let's solve some problems to better understand input and output devices. Logic gates | AP CSP (article) | Khan Academy.
The logic gates that we've presented here are abstract representations of real devices. A logic gate describes any device that can take in values of 0 or 1 and output a 0 or 1 according to its truth table. Linearity (article) | DC circuit analysis | Khan Academy. Building on this, every semiconductor device is non-linear (diodes and transistors) and they are used every day by the billions.
Engineers have figured out how to use non-linear devices, and you will, too, as you continue your studies. Thanks to battery power and wireless networking, devices are increasingly portable. Building on this, our mobile phones go wherever we go, cars can make cross-country road trips, and drones can fly miles into the air. UP Science Grade 7 - Khan Academy.
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📝 Summary
Essential insights from this article on output devices examples reveal the value of comprehending these concepts. By using this knowledge, you'll be able to gain practical benefits.