How technology changes
Long ago before there was even technology the Abacus was invented by the babylonians. The abacus was invented in the 1300 AD.This was known as the first ever calculating machine throughout history. There were many versions of the Abacus but the most popular one is based on the biquinary system.

After some time John Napier, a scottish politician and mathemaician, invented John Napier’s Bones in 1600 AD that was used to multiply and divide big numbers.

After about 25 years when Napier’s Bones were invented Wilhelm Schickard, from Tuebingen, Wuerttemberg, invented the Calculating Clock. He used wheels to add or subtract numbers up to 6 digits.

Approximately 15 years later after Wilhelm Schickard’s Calculating Clock Blaise Pascal invented the Pascaline because he was too tired of manually adding all the data in his father’s collection office. This machine can add numbers up to 8 digits. Pascaline was the first mechanical calculator that became well known and was around a dozen were sold.

After 31 years after inventing the Pascaline Gottfried Wilhem von Leibniz. He designed a machine that can add, subtract, divide, and multiply. This machine could multiply 5–12 digits to give a 26 digit operand.

After a lot of time Joseph-Marie Jacquard developed a weaving device that was later used in computers for sorting data.

Known as the father of modern computers Charles Babbage invented two machines. The difference machine performed multiplication and division. Babbage never finished this machine but a group of british engineers did in 1991.

Charles Babbage also developed the Analytical Engine. This machine could do all the four basic operations but babbage didn’t finish this building as well.

Herman Hollerith developed a tabulating machine that used cards were in data was punced on.

Now in the present day 2017 we have
TOUCH SCREEN
GESTURAL INTERFACES
3D technology, 3D films, 3D TV, and 3D virtual world
MOTION CAPTURE IN FILMMAKING
MOBILE DEVICES
SMARTPHONE
TABLET
and technology will be advancing more and we don’t know what to expect in the future. Who knows we might have robots serving us or flying cars? Technology doesn’t stay the same it changes for the best so we can also have a better life and better future for the coming generations. NASA has found a way to make Mars like Earth and make it habitable for humans so who knows humans might transfer form earth to Mars and actually learn from our mistakes on earth and take care of Gods creation and ‘LIVE FULLY AS GOODS BELOVED”
In Forbes words “ A New Digital Paradigm
While the digital laws may seem to be working steadily on our behalf, the numbers can be deceiving because they actually represent accelerating returns. Simply follow the pace of Moore’s law alone and you will quickly realize that we will advance roughly the same amount in the next 18 months as we did in the previous thirty years.
At some point, a difference in degree becomes a difference in kind. Having exhausted most of the possibilities we saw for computers a decade ago, we are beginning to focus our technology on completely new tasks, such as nanotechnology, genomics and energy. Clearly, we are entering a new digital paradigm.
To get an idea of how this will all play out, look at how supercomputing has progressed at IBM. In the 90s it focused its efforts on pure computation, eventually defeating chess champion Garry Kasparov with brute force. In 2011, its Watson computer triumphed at Jeopardy!, a game show that requires intuition as well as intelligence.
Now, IBM is repurposing Watson for human professions, such as medicine, law and even customer service. The line between man and machine is blurring beyond anything we could imagine even a few years ago.
Atoms Become The New Bits
There is probably no place the expansion of the digital economy is as dramatic as in the field of manufacturing, which until recently was assumed to be a low tech area best left to sweatshops and cheap labor. Today, as Steve Denning reported in Forbes, companies from Apple to GE are finding it makes more sense to keep manufacturing closer to home.
The reason is that we are in the midst of a new industrial revolution where the informational content of manufactured goods is becoming more valuable than the physical content. An array of technologies, ranging from CAD software to 3D printing to lights out factories which are entirely populated with robots, is reinventing the economics of making things.
Just as people gathered in places like the Homebrew Computer Club in the 70s, there are now dozens of fab labs scattered across the globe where hobbyists can meet and build prototypes. These designs can then be manufactured at just about any scale by services like Ponoko and Pololu.
Open software is now giving way to open hardware where, as Chris Anderson puts it, they “give away the bits and charge for the atoms.” The maker economy is so potentially powerful that there is already talk of a Moore’s law for atoms that will bring accelerating returns to physical products.” I think that this is stating that we have litteral technology at our finger tips. In facebook we can just swipe down and be informed by the post our friends have posted. This is also the same with other social medias like Twitter, Snapchat and more. We are treating them like things our life revovles around that we don’t even realize that we have the environment taht god has given us. We dont even realize that there is more technology to come that we might litterally be floating in the future. We should instead spend our time to what God wants us to do and what we were created for is to take car of the planet.
