Stories from the stores

Category: Computing

Women of substance

March 8th, 2011 | by | chemistry, computing, women in science

Mar
08

Continuing our Women’s History Month theme, today we’re celebrating International Women’s Day. As the theme for 2011 is ‘equal access to education, training and science and technology’, it seems like a good day to celebrate Kathleen Lonsdale, who in 1945 became the first woman to be elected a Fellow of the Royal Society, along with microbiologist Marjory Stephenson (only 285 years after the men).

Kathleen Lonsdale in 1957 (Science Museum).

Lonsdale was a pioneer in the field of X-ray crystallography, in which scientists fire X-rays at crystals and study how they are scattered. This enables them to infer how atoms are arranged inside the crystal.

Lonsdale's models of the structure of ice, 1955 (Science Museum)

In the early days, it was an arduous process. Capturing X-rays on film could result in burns to the fingers. Calculating the atomic layout from the X-ray patterns had to be done manually, involving hours of slogging. Things got somewhat easier with the advent of scientific computing. The Pegasus computer on display in our Computing gallery (the world’s oldest working electronic computer) was used by Lonsdale’s group at University College London.

Pegasus speeded up crystallographers' calculations (Science Museum).

Lonsdale faced the additional challenge of being a woman in a man’s world, and for a time struggled to combine scientific work with raising a family. Her mentor William Henry Bragg arranged for a grant to help support her at home so that she could carry out her world-class research. Lonsdale said that to succeed as a woman scientist one must be a first-class organiser, work twice the usual hours, and learn to concentrate in any available moment of time.

In the early-to-mid 20th century, the field of X-ray crystallography was unusual in having a number of high-profile women scientists, including Lonsdale, Helen Megaw, Rosalind Franklin, whose X-ray photograph of DNA was infamously used by Crick and Watson in determining the double helix structure, and Nobel prizewinner Dorothy Hodgkin. Hodgkin always resisted being singled out as a ‘woman scientist’, but cannot have been impressed with the Daily Mail’s headline announcing her award: ‘Oxford housewife wins Nobel Prize’.

Dorothy Hodgkin in the 1940s (NMeM / Daily Herald Archive / Science & Society)

Things are easier for women in the sciences today but a 2010 report suggests that, in the UK at least, the picture’s still not so rosy – despite an increase in females studying science, technology and medicine, women still only make up 12% of the workforce. And women are noticeably absent as the famous faces of science. There’s still some way to go before the likes of Lonsdale become the norm rather than the inspirational exceptions.

No Comments »

Batteries not included

October 5th, 2010 | by | chemistry, communication, computing, current science

Oct
05

What’s the one gadget you couldn’t live without? Your mobile phone, PDA, music player, game console – or all those things combined in a sleek smartphone?

No matter which device you choose, the one thing that all these gadgets couldn’t exist without is their rechargeable battery - the beating heart of the modern world.

The first rechargeable battery was the Lead-Acid battery, invented in 1859 by Gaston Planté, but it was the Nickel Cadmium battery invented in 1899 by Waldemar Jungar that really paved the way for the future of mobile technology.

The very early mobile phones used Nickel Cadmium batteries, but the batteries were so enormous they had to be stored in the boot of a car. As demand increased improvements were made and soon you were able to carry your battery around with you in a handy carry case.

Vodafone transportable mobile phone, 1985. (Science Museum / Science & Society)

By 1983 the first stand alone mobile phone had been developed using the Nickel Cadmium battery the Motorola Dynamic Adaptive Total Area Coverage (DynaTAC 8000X). By 1989 they could even fit in your pocket – though it might have to be quite a large pocket.

Motorola MicroTAC cellular telephone.

Motorola MicroTAC cellular telephone, 1993. (Science Museum / Science & Society)

Today the battery that probably powers the phone in your pocket and the laptop on your desk is a Lithium battery, most likely a Lithium-Ion battery.

Introduced in 1990 these batteries have emerged as the best energy to weight ratio, meaning they last longer but weigh less, and they have enabled mobile phones to become smaller and smarter.

Sony Ericson T68i mobile phone, 2002. (Science Museum / Science & Society)

The iUnit concept car in our Plasticity exhibition is proof that in the future lithium batteries could be used to power even more aspects of our mobile lives.

Toyota i-Unit concept car, 2005 (Science Museum website)

1 Comment »

The year of the Rabbit

October 4th, 2010 | by | communication, computing

Oct
04

Whilst doing some research into the history of the mobile phone in Britain I made a discovery in the Museum’s collections that took me back in time. Back to when a pay phone was a useful piece of street furniture and the iPhone was but a twinkle in Steve Job’s eye.

The year - 1992.
The discovery - the Rabbit Phone.

The Rabbit Phone is a glitch in our technological past – a transitional invention that represented where technology was going, but not how the British public wanted to get there.


Rabbit telepoint telephone by Hutchison Personal Communications Ltd, 1993. (Science Museum / Science & Society)

It was one of a number of telepoint services that were available between 1989 and 1994, that operated on the basis of a domestic cordless phone.

You could carry around your lightweight Rabbit Phone but it would only work when you were within 100-200 metres of a Rabbit base station, advertised by a friendly white and blue sign posted in windows and on walls. What added to the frustration was that these phones could only make calls whilst on the move. Not very practical…

Rabbit Telepoint Sign in New Barnet Station, 2002. (BBC website)

Unsurprisingly the Rabbit Phone only attracted 10,000 subscribers and the network was closed on 31 December 1993. As a replacement, customers were offered an Orange mobile phone on the cellular network.

The Rabbit Phone could be considered one of history’s technological turkeys, but I choose to see the Rabbit Phone as a symbol of the mobile phone’s success rather than telepoint’s failure.

The rise and dominance of the mobile phone was so fast that it took everyone by surprise. Out of date before it was in proper use, the Science Museum’s Rabbit Phone is virtually unused.

Today telepoint’s legacy lives on, echoed in the wifi internet networks we now have in trains, cafes and bars.

Wifi Zone sign, 2003 - present (BBC website)

As this recent article in The Guardian shows these hotspots are becoming an increasingly useful and important part of our daily lives.

1 Comment »

Remembering computer memory

January 19th, 2010 | by | computing

Jan
19

The British inventor of the magnetic drum store, Andrew D. Booth, recently passed away so its a good time to remember the significance of his work for computing today.

Andrew Booth was a physicist and computer scientist who became interested in the structure of explosives when he was working in Welwyn Garden City in Hertfordshire. After WW2 he moved to Birkbeck College, University of London, where he met the physicist J.D. Bernal and began to use X-ray crystallography to look at the structures of crystals. The process of crystallographic research required an enormous amount of numerical work and analysis, so Booth wanted to create a computer that could quickly crunch through the numbers. To do so he realised he needed reliable computer memory, so he set to work looking at the options.

Thanks to a donation from Booth himself in the 1940s, the Science Museum has Booth’s original experimental Magnetic Drum Store (1946) on display in the computing gallery.

Booth’s original experimental Magnetic Drum Store

Booth’s original experimental Magnetic Drum Store

It’s an ad hoc affair, with string and wires sticking out. Few people would have suspected at the time that it was to make such a major contribution to the development of computing. But during the 1950s and 60s magnetic drums were an important memory device for storing data and instructions. Even today, your computer’s hard drive is likely to contain a magnetic disk.

Booth worked tirelessly with his assistant (who later became his wife) Kathleen Britten, in what was often no more than a two person team with a shoestring budget. Together they produced some of the earliest digital computers in Britain, such as the All Purpose Electronic Computer (APEC). The design for the HEC computer was to become one of Britain’s best-selling computers during the late 1950s.

2 Comments »

Cosmic Collections launch event unveiled

October 23rd, 2009 | by | astronomy, computing

Oct
23

Gaetan Lee is organising tomorrow’s launch event for Cosmic Collections, our website competition. Find out a little more about what to expect.

Gaetan Lee

Gaetan Lee

What should people expect at the event tomorrow?

Well they should expect to get a chance to meet some great people and really get a chance to contribute – to a certain extent its going to be a user-generated event. By coming along they will be able to hear the story of eighteenth century astronomer Caroline Herschel from one of our drama characters and delve into the secrets of the Cosmos & Culture gallery from Ali Boyle, our curator of Astronomy. Dr Chris Welsh from Kingston University will be on hand as well to give people a real insight into how we’re studying the stars today. More importantly though this is a bit of an experiment for the Science Museum, because although we have some great sessions from these experts, we also want the people coming along to add to it as well, sharing their own experience, ideas and talents.

Is there anything you’re particularly looking forward to?

We’re going to be running a special wall activity whereby people can create their own narratives and links between museum objects in much the same way as the curators do when they start to plan an exhibition. We’re really interested to see what the attendees do and how they choose to link their own stories and objects together.

What kind of people will be there?

We’re hoping for a real mix of people, from people with a background in web development, in astronomy or just a general interest in science and technology. Once we get all these people together we’re planning to mix them up and get them working in teams, so it will be a mash-up of people as well as ideas.

Do you think it will give competition entrants an advantage?

By coming along tomorrow people will get a real chance to find other people to work with and but more importantly to get the inside scoop behind our amazing collection of objects. Plus it should be fun!

If you have any questions for Gaetan please leave them as comments below. You can also check out interviews with Mia Ridge, our Web Developer and Ali Boyle, our Curator of Astronomy.

1 Comment »

Older Posts