They move electrical signals through predetermined logic gates to execute an assembly instruction billions of times a second(at around the year 2000 and still today 2008 just improvents in architecture and the way the signals move are the usual reason they are more powerful now)
Refer to what is an assembly instruction and/or what are logic gates if still in confusion.
Yes you can. But it may damage your computers power supply.
Use a 2.25 ohm 25watt ballast resistor;renault used them to drop the voltage for the Engine control computers.
A room usually full of connected computers, LAN standing for Local Area Network means all the computers contained within, and sometimes a few near by, all are talking to one another to create a small web of computers. This is most often used for playing games with friends in a close space.
Integrated Circuits with a NE565 frequency can be used in all electronic devices. These semiconductors are lightweight, low cost, and compact making them useful in many modern appliances, phones, and computers.
A: Humans use the decimal or the 10 numbers systems since i guess we have ten fingers. And we do the mathematics using the ten digit numbers. Computers use the binary system two digits "0" "1" and it recognizes as true or false that is machine language all the computations are based on these two binary numbers
hi, im bob !
microchips
The computer has wires and microchips but does not have gears. Do you mean the fan.
Because - when Colossus was built (in 1943), microchips had yet to be invented ! Microchips replaced valves and transistors in newer computers.
The discovery and development of microchips and micro technology
One word, microchips!
Yes, they mess with the connections, much in the same way they kill computers.
binary language
The evolution of fourth generation of computer till date was the use of microchips as the memory capacity and this has helped in manufacturing of computer till date.
microchips
Silicon is the non-metal used to make micro-chips for computers/electronics.
Copper is used in pennies, microchips, dishes, wiring, jewelry, computers, batteries, and transportation vehicles.