The answer is yes to the question Is there a such thing as a non-electric computer? A mechanical computer is made of mechanical, as opposed to electronic, parts, such as gears and levers. The most prevalent examples are mechanical counters and adding machines, which increase output displays by turning gears.
Thing As A Non-Electric Computer
In actuality, certain designs use computing without power. Mechanical computers exist, including Charles Babbage's Difference Engine, mechanical calculators, and even some Lego-built computers that I occasionally see. Computers that use fluids instead of electric currents are known as fluidic computers. The MONIAC, the FLODAC, and MIT's innovative Bubble Logic are examples of this. For more details you must visit Tech Orbes.
Optical computing is when information is transmitted through a computer using light rather than electric currents. A digital or analog version of this As the name implies, DNA molecules are used as both the computing mechanism and the memory storage device in the computing paradigm known as "DNA computing." Such devices would have the drawback of being rather slow, taking minutes, hours, or days to reply, but this is made up for because a computer of this kind could carry out millions to billions of concurrent computations.
A chemical computer is created using different chemical ingredients to create a semi-solid slime. Very specific chemical amounts would be used to enter information, chemical processes would be used to compute, and the output would be the resulting chemicals. Have fun learning more about the many computing paradigms in Unconventional computing. Instant Lobby has covered this topic in detail.
Would A Purely Mechanical Computer Be Possible?
Yes. However, no one has ever created a mechanical digital computer with stored programs, as far as I know. According to memory, we have slide rules and adding machines dating back to the 1700s. Babbage's Analytical Engine was the closest thing we had, although he never finished building it.
The complexity of a programmable computer would be exceedingly high. Moreover, it would have to be incredibly dependable. Therefore, belts and pulleys are usually not a good choice because they slip and break. It would help if you employed cogs, much like Babbage did. There are numerous pieces to it since it is complex. If you want to know more then go to Facts Maniya.
Either it will be enormous, or the components must be constructed precisely. The inability of the engineering at the time to produce accurate enough parts was Babbage's dilemma. But in your dream world, you might enlarge it. You'll need a power source, but anything that revolves will do. If you like, you can run it with a water wheel.
The final challenge is giving it enough RAM. The final issue they had to address in the actual world was a memory. You'll require at least 10,000 bits of memory, which takes up a lot of room and hardware. Equipment breaks down more frequently the more of it you have.
Valve-based memory was out of the question for early computers because they would fail so frequently that the device would never function. A mercury delay line was employed. They made a sound at one end of a pipe, and at the other, they listened to it. Since sound travels at a rather slow speed, the pipe may be filled with numerous fragments.
So perhaps your memory is like a ball-filled conveyor belt. If a ball is present, the value is 1; if not, the value is 0. An analog computer will operate very slowly. There is inertia in shafts and cogs. Their inertia increases in size as they get bigger. Today's computers process billions of instructions every second. One instruction would take a mechanical computer several seconds to process.
Therefore, you won't be able to run Windows on it, but it will undoubtedly be able to perform complex mathematical operations. However, it would probably operate more slowly than a human mathematician.
Hopefully, you get the answer Is There A Such Thing As A Non-Electric Computer? In any case, mechanical computers have been created. They weren't very good, but they were nonetheless manufactured.
They would most likely operate a billion times slower than the electronic computers we use today. Some of them have steam power suggested for them. The second choice is to employ photonics or spintronics, but it's unlikely that either can be done without a power source.
A nanotechnological computer might be developed. However, that would essentially be a VERY tiny mechanical computer. Such a device might easily be much faster and more powerful than a modern electronic computer and might be fueled by chemical reactions. It seems impossible that we could ever create and construct a nanotech computer without utilizing electricity.
What exactly is a non-electric device?
A Non-Electronic Device Is What? A non-electronic device either doesn't use electricity at all or uses electricity but isn't an electronic device.
What non-electronic alternatives computer are there?
Process monitoring, test rigs, and control rooms are typical examples. These are used in steel mills, chemical plants, ships' engines and gears, mining (drilling equipment), and other industries (mixing equipment).
How many different kinds of computers exist?
Three different computer types' analog, digital, and hybrid are categorized based on how well they can handle data.