The world’s fountain pen has been used for millennia by writers for a variety of reasons, but scientists have a new theory that might help explain how it has survived centuries of use.
The new research has been published in the journal Scientific Reports.
The research was carried out by scientists from the UK and the US.
The scientists studied the history of writing with modern technologies and the pen has a design which is similar to that of a fountain pen, but they did not look at the mechanism that keeps the nib moving along its length, instead they looked at the way that the nibs in modern writing devices are held together.
This allows the nib to be held in place without the need for any kind of glue or other adhesive.
“If you take a pen with a nib that’s a bit too thin, you can break it,” explains lead author Professor James Beddington, who was at the University of Manchester.
“It’s a problem because it causes damage to the nib, which is very important to the writing process.”
It was this problem that led the scientists to the theory that the way the nib is held together might be the key to its longevity.
“We have a nib on our hand that’s held together by two different things,” explains Professor Beddingham.
“One is the way it’s held, and the other is the friction that’s involved in the way you’re writing,” explains James.
“That friction is what keeps the tip of the nib from going too far away, but it’s the friction between the two that is holding the nib up.”
This friction between two pieces of metal is called the shear, which creates friction.
This friction can be kept from getting too strong over time, because it can only be broken by squeezing the nib.
This causes the nib and tip to move together as the ink is written.
This can be quite slow, but once the ink has been written down, the nib will then stop moving.
It can be difficult to see the difference between writing and drawing because it’s hard to see how the ink moves as it is written down.
“There’s a huge difference between how the nib moves when you’re drawing and how it moves when the pen is writing,” says James.
It’s not hard to imagine a writer being able to do this if the nib was made of stainless steel and was held by a strong magnet.
But if the pen was made from plastic, it would be even harder to achieve.
“I’m not a chemist, but the kind of plastic used for the nib of a modern fountain pen is really thin and flexible,” explains the research lead.
“So if you have a pencil in the hand, that means you’re only going to be able to write down the tip, and you have to push the pen back and forth between your fingers.
That would make it very difficult to hold a pen like this.”
Modern writing devices, including fountain pens, have been designed to be a lot more durable than their predecessors.
But the researchers say that there are still some issues to work out.
“The design of modern writing has evolved in many ways over the past hundred years,” says Professor Babbett.
“Some of the most important design decisions are made by people in the past, and not all of them are as well known.”
If the design of writing devices is important to you, the next step is to research how the technology can be used to create a new kind of writing device.
“This is a really exciting area of research, and it will take a while to really find out the answer to that question,” says Prof Beddingham.
“But if we can understand how the different designs of modern fountain pens are able to hold up to the pressure of writing, it could make a big difference in the future.”
It’s possible to improve the mechanical properties of modern pens The design of pens like this is still quite different to the way modern writing is done today.
Modern writing is more like a pencil than a fountain, with a metal tip.
In modern writing, the tip moves up and down as the pen hits the paper.
The tips are also not perfectly flat, which means that when you write down a note or word, the pen can get stuck or become bent.
This is because the metal tip has a groove at the bottom, which allows the ink to drip from it when it’s pressed down.
This happens because the tip is held up by a friction that is much weaker than the friction at the top of the pen.
This design makes the pen very difficult for writing, so modern pens tend to be very brittle.
This means that it’s not easy to fix a broken pen.
Modern pen manufacturers are looking at different ways to improve this design.
They are also considering using new materials and materials that have better resistance to water.
The researchers also hope to design a new pen that has a much stronger, more flexible nib, and one that has