Tag Archives: University of Calgary

Evelyn Fox Keller, Lee Smolin, or Kathleen M. Vogel may be speaking at a science event near you

1 Reply

More details are emerging about Evelyn Fox Keller’s April 2013 visit to western Canada (first mentioned in my Jan. 23, 2013 posting). Fox Keller is an eminent scholar as per this description, from my Oct. 29, 2012 posting about her talk in Halifax, Nova Scotia,

Before giving you details about where to go for a link [to her livestreamed Oct. 30, 2012 talk], here’s more about the talk and about Keller,

Fifty years ago, Thomas Kuhn irrevocably transformed our thinking about the sciences with the publication of The Structure of Scientific Revolutions. For all his success, debate about the adequacy and applicability of his formulation persists to this day. Are there scientific revolutions in biology? Molecular genetics, for example, is currently undergoing a major transformation in its understanding of what genes are and of what role they play in an organism’s development and evolution. Is this a revolution? More specifically, is this a revolution of the sort that Kuhn had in mind? How is language used? What implications can we draw from this?

Dr. Keller is the recipient of the prestigious MacArthur ‘Genius’ Award and author of many influential works on science, society and modern biology such as: A Feeling for the Organism: The Life and Work of Barbara McClintock (1983), Reflections on Gender and Science (1985), Secrets of Life, Secrets of Death: Essays on Language, Gender, and Science (1992), The Century of the Gene (2000), Making Sense of Life: Explaining Biological Development with Models, Metaphors and Machines (2002) and The Mirage of a Space Between Nature and Nurture (2010).

Keller Fox will be visiting the University of Calgary (Alberta) on April 1, the University of Alberta on April 2, and the University of British Columbia on April 4, 2013.  I’ve not found details about the University of Calgary visit but did find this for the University of Alberta visit (from the  Situating Science network node for the University of Alberta web page),

Tue., Apr. 2, 4:00 PM – , 6:00 PM

Dr. Keller visits U. Alberta as part of her travels as the Cluster Visiting Scholar.

Dr. Keller will speak at 4 pm in the Engineering and Technology Learning Centre, room 1-017d. There will be a reception directly after the talk.

PARADIGM SHIFTS AND REVOLUTIONS IN CONTEMPORARY BIOLOGY

Details about the visit to the University of  British Columbia are a little sparse, Situating Science network node for the University of British Columbia web page

Network Node:
University of British Columbia
Date:
Thu., Apr. 4, 5:00 PM – , 6:30 PM

What Kind of Divide Separates Biology from Culture?
Evelyn Fox Keller, History and Philosophy of Science, MIT
April 4 2013 5:00 – 6:30 pm, with reception to follow

Presented by Science and Society Series at Green College
Location: TBD

I did try to find more information about where and who might be allowed to attend her University of British Columbia (UBC) visit on the UBC site (Science and Technology Studies colloquium webpage, which lists her visit) and on their Green College site but no more details were available.

The Perimeter Institute in Waterloo, Ontario (the other side of Canada) has announced, with full details, an April 3, 2013 talk by Lee Smolin. Smolin moved to Canada in 2000 to become a founding member of the Perimeter Institute as per the biographical information attached to this event announcement. From their Mar. 13, 2013 announcement,

Time Reborn(Live webcast)

Wednesday, April 3 @ 7:00 pm
Mike Lazaridis Theatre of Ideas
Perimeter Institute, Waterloo

Lee Smolin
Perimeter Institute

What is time? Is our perception of time passing an illusion which hides a deeper, timeless reality? Or is it real, indeed, the most real aspect of our experience of the world? Einstein said that, “the distinction between past, present, and future is only a stubbornly persistent illusion,” and many contemporary theorists agree that time emerges from a more fundamental timeless quantum universe. But in recent cosmological speculation, this timeless picture of nature seems to have reached a dead end, populated by infinite numbers of imagined unobservable universes.

In this talk, Lee Smolin explains why he changed his mind about the nature of time and has embraced the view that time is real and everything else, including the laws of nature, evolves. In a world in which time is real, the future is open and there is an essential role for human agency and imagination in envisioning and shaping a good future. Read More

Win tickets to be part of the live audience at Perimeter Institute for Time Reborn.

Sign up to receive an email reminder to watch the live webcast of Time Reborn.

As a service to audience members,
Words Worth Books will be onsite at this event.

Thank you for your support!

There is no information about accessing the webcast in the announcement. I last mentioned Smolin (briefly) in a June 4, 2009 posting,

… a physicist at Canada’s Perimeter Institute, Lee Smolin who, based on his work with Roberto Mangabeira Unger, a Brazilian philospher, suggests that the timeless multiverse (beloved of physicists and science fiction writers) does not exist.

This last event with Kathleen Vogel takes place in Washington, DC. From the Mar. 13, 2013 Woodrow Wilson Center announcement,

Invitation from the Woodrow Wilson Center

and the Los Alamos National Laboratory

Book Discussion: Phantom Menace or Looming Danger?: A New Framework for Assessing Bioweapons Threats

Speaker: Kathleen M. Vogel, Ph.D.

Associate Professor, Department of Science & Technology Studies

Acting Director, Reppy Institute for Peace and Conflict Studies

Cornell University

Date/Time: Friday, March 22, 2013, noon to 1:30 p.m.

Location: 5th Floor Conference Room

Woodrow Wilson Center in the Ronald Reagan Building,

1300 Pennsylvania Ave., NW

(“Federal Triangle” stop on Blue/Orange Line)

Please RSVP (acceptances only) at iss@wilsoncenter.org

For directions see the map on the Center’s website at www.wilsoncenter.org/directions. Please bring a photo ID and allow additional time to pass through a security checkpoint.

This meeting is part of an ongoing series that provides a forum for policy specialists from Congress and the Executive, business, academia, and journalism to exchange information and share perspectives on current nonproliferation issues. Lunch will be served. Seating is limited.

Carbon Management Canada announces research for an affordable CO2 nanosensor

1 Reply

Researchers at the University of Toronto (Ontario) and St. Francis Xavier University (Nova Scotia) have received funding from Carbon Management Canada (a Network Centre for Excellence [NCE]) to develop an ultra-sensitive and affordable CO2 nanosensor. From the Feb. 4, 2013 news item on Nanowerk,

Researchers at the Universities of Toronto and St. Francis Xavier are developing an affordable, energy efficient and ultra-sensitive nano-sensor that has the potential to detect even one molecule of carbon dioxide (CO2).

Current sensors used to detect CO2 at surface sites are either very expensive or they use a lot of energy. And they’re not as accurate as they could be. Improving the accuracy of measuring and monitoring stored CO2 is seen as key to winning public acceptance of carbon capture and storage as a greenhouse gas mitigation method.

With funding from Carbon Management Canada (CMC), Dr. Harry Ruda of the Centre for Nanotechnology at the University of Toronto and Dr. David Risk of St. Francis Xavier are working on single nanowire transistors that should have unprecedented sensitivity for detecting CO2 emissions.

The Carbon Management Canada (CMC) Feb. 4, 2013 news release, which originated the news item, provides  details about the funding and reasons for the research,

CMC, a national network that supports game-changing research to reduce CO2 emissions in the fossil energy industry as well as from other large stationary emitters, is providing Ruda and his team $350,000 over three years. [emphasis mine] The grant is part of CMC’s third round of funding which saw the network award $3.75 million to Canadian researchers working on eight different projects.

The sensor technology needed to monitor and validate the amount of CO2 being emitted has not kept pace with the development of other technologies required for carbon capture and storage (CCS), says Ruda.

“This is especially true when it comes to surface monitoring verification and accounting (MVA),” he says. “Improving MVA is essential to meet the potential of carbon capture and storage.”

And that’s where the ultra-sensitive sensor comes in. “It’s good for sounding the alarm but it’s also good from a regulatory point of view because you want to able to tell people to keep things to a certain level and you need sensors to ensure accurate monitoring of industrial and subsurface environments,” Ruda says.

Given CMC’s vision for ‘game-changing research to reduce carbon emissions’, it bears noting that this organization is located in Calgary (the street address ‘EEEL 403, 2500 University Drive NW Calgary‘ as per my search today [Feb.4.13] on Google [https://www.google.ca/search?q=CMC+address+Calgary&ie=utf-8&oe=utf-8&aq=t&rls=org.mozilla:en-US:official&client=firefox-a] suggests the University of Calgary houses the organization). Calgary is the home of the Canadian fossil fuel industry and a centre boasting many US-based fossil fuel-based companies due to its size and relative proximity to the Alberta oil sands (aka, Athabaska oil sands). From the Wikipedia essay (Note: Links and footnotes have been removed),

The Athabasca oil sands or Athabasca tar sands are large deposits of bitumen or extremely heavy crude oil, located in northeastern Alberta, Canada – roughly centred on the boomtown of Fort McMurray. These oil sands, hosted in the McMurray Formation, consist of a mixture of crude bitumen (a semi-solid form of crude oil), silica sand, clay minerals, and water. The Athabasca deposit is the largest known reservoir of crude bitumen in the world and the largest of three major oil sands deposits in Alberta, along with the nearby Peace River and Cold Lake deposits.

Together, these oil sand deposits lie under 141,000 square kilometres (54,000 sq mi) of boreal forest and muskeg (peat bogs) and contain about 1.7 trillion barrels (270×109 m3) of bitumen in-place, comparable in magnitude to the world’s total proven reserves of conventional petroleum. Although the former CEO of Shell Canada, Clive Mather, estimated Canada’s reserves to be 2 trillion barrels (320 km3) or more, the International Energy Agency (IEA) lists Canada’s reserves as being 178 billion barrels (2.83×1010 m3).

As for locating a carbon management organization in Calgary, it does make sense of a sort. Here’s a somewhat calmer description of Carbon Management Canada on the website’s About CMC page,

Carbon Management Canada CMC-NCE [Network Centre for Escellence] is a national network of academic researchers working with experts in the fossil energy industry, government, and the not-for-profit sector. Together, we are developing the technologies, the knowledge and the human capacity to radically reduce carbon dioxide emissions in the fossil energy industry and other large stationary emitters.

Carbon emissions and the growing global concern about its effects present a unique opportunity for innovation and collaboration, especially in the fossil energy industry. Rapidly increasing global complexity demands robust, responsive innovation that can only develop in a highly collaborative context involving industry, scientists, policy makers, politicians and industry leaders in concert with an informed, supportive public.

Carbon Management Canada is the national body charged with harnessing the collective energy of this diverse group in order to push forward an ambitious agenda of innovation and commercialization to bring research from the lab into the world of practice.

Funding

Funding for CMC was provided through the federal Networks of Centres of Excellence ($25 million) and the Province of Alberta through Alberta Environment ($25 million). Industry has also provided $5.7 million in contributions.

The Network has over 160 investigators at 27 Canadian academic institutions and close to 300 graduate and postdoctoral students working on research projects. CMC currently has invested $22 million in 44 research projects.

Our Themes

CMC is an interdisciplinary network with scientists working in fields that range from engineering to nanotechnology to geoscience to business to political science and communications. These investigators work in 4 themes: Recovery, Processing and Capture; Enabling and Emerging Technologies; Secure Carbon Storage; and Accelerating Appropriate Deployment of Low Carbon Emission Technologies.

Given that CMC is largely government-funded, it seems odd (almost as if they don’t want anyone to know) that the website does not feature a street address. In addition to trying  a web search, you can find the information on the last page of the 2012 annual/financial report. One final note, the chair of CMC’s board is Gordon Lambert who is also Vice President, Sustainable Development, Suncor Energy. From Suncor’s About Us webpage,

n 1967, we pioneered commercial development of Canada’s oil sands — one of the largest petroleum resource basins in the world. Since then, Suncor has grown to become a globally competitive integrated energy company with a balanced portfolio of high-quality assets, a strong balance sheet and significant growth prospects. Across our operations, we intend to achieve production of one million barrels of oil equivalent per day.

Then, there’s this on the company’s home page,

We create energy for a better world

Suncor’s vision is to be trusted stewards of valuable natural resources. Guided by our values, we will lead the way to deliver economic prosperity, improved social well-being and a healthy environment for today and tomorrow.

The difficulty I’m highlighting is the number of competing interests. Governments which are dependent on industry for producing jobs and tax dollars are also funding ‘carbon management’. The fossil fuel-dependent industry make a great deal money from fossil fuels and doesn’t have much incentive to explore carbon management as that costs money and doesn’t add to profit. Regardless of how enlightened any individuals within that industry may be they have a fundamental problem similar to an asthmatic who’s being poisoned by the medication they need to breathe. Do you get immediate relief from the medication, i.e., breathe, or do you refuse the medication which causes damage years in the future and continue struggling for air?

All of these institutions (CMC, Suncor, etc.) would have more credibility if they addressed the difficulties rather than ignoring them.

Situating Science in Canada; excerpts from the Winter 2013 newsletter

Leave a reply

Situating Science is a SSHRC (Social Science and Humanities Research Council) funded network for Canadian Science and Technology Studies (STS) and Philosophy and History of Science scholars amongst others who examine the social impacts of science both in the present and in the past. The network is in its seventh and final year of funding (sunsetting) although there are plans for the future as per its most recent newsletter. Here’s a brief description of Situating Science’s  recent activities along with a listing of activities taking place in various Canadian cities over the next several months, as well as, a hint about future plans, from the Winter 2013 newsletter,

Happy New Year!

It’s been a busy few months. Members of the Cluster are now able to present you with all the latest in this Winter 2013 newsletter. In this issue, the Social Sciences and Humanities Research Council of Canada’s Strategic Knowledge Cluster, Situating Science: Cluster for the Humanist and Social Study of Science (www.situsci.ca) is pleased to update you on activities …

Given our past successes, Cluster members plan to move forward with a few grant applications to sustain and initiate partnerships and activities. Some partners and stakeholders met in October to begin the planning process for a national and international partnership to explore sciences, technologies and their publics. They also plan to arrange to meet again this year to concretize plans for a sustainable network and national centre.

The Cluster hopes to build upon partnership activities with scholars and institutions in Southeast Asia and India. Members are currently planning to seek support for a Canada-Southeast Asia and India partnership to explore cosmopolitanism and circulation of knowledge.

The Cluster Centre and its many and varied local partners kept Dr. Evelyn Fox Keller busy during her 3.5 week fall visit to Halifax as the Cluster Visiting Scholar. Her time here allowed her to research genotypic plasticity, biological information and mathematical biology on top of participating in several activities, including a public lecture on “Paradigm Shifts and Revolutions in Contemporary Biology”. She then continued to Montreal to present and discuss her work at McGill [University] and UQAM [Université de Québec à Montréal] (CIRST) [Centre interuniversitaire de recherche sur la science et la technologie] and then to Toronto for discussions at York University, a University of Toronto IHPST [Institute for the History and Philosophy of Science and Technology] Brown Bag colloquium and a Wiegand Memorial Foundation Lecture on “Self-organization and God.” Select videos and podcasts of her public events are available on our website.

Dr. Anne Harrington, professor of History of Science at Harvard University, came to the Cluster Centre in October for a packed history of medicine luncheon conversation on “Culture in the Brain and Under the Skin”. This was followed by a post-performance discussion of placebo effect and medical attitudes and treatments after an original 2b Theatre production of “The Story of Mr. Wright.” Other recently supported events and visiting speakers to the Cluster Nodes include the Reading Artifacts Summer Institute at the Canada Science and Technology Museum (CSTM); Toronto’s Technoscience Salon on Ecologies; Women in Science and Engineering Symposium at McGiIll University; Dr. Suzanne Zeller, Wilfrid Laurier University in Halifax; Dr. Arun Bala, National University of Singapore at York University; Dr. Michael Lynch, Cornell University at U. Alberta [University of Alberta]; and many more.

II. UPCOMING WORKSHOPS, CONFERENCES AND EVENTS    

All of our events are supported by a host of partners and some are recorded, streamed live online or blogged about. Please visit our website for more information.

Fri. January 25, 5 PM, University of Toronto: “Technoscience Salon: Queer(y)ing Technologies.”

Wed., Feb. 27-28, National University of Singapore: “The Bright Dark Ages: Comparative and Connective Perspectives.”

Fri. Mar. 22-23, UBC [University of British Columbia]: Workshop on “Bodies in Motion: Translating Early Modern Science.”

Mon. April 1- Th. April 4, Calgary [University of Calgary], Edmonton [University of Alberta], Vancouver [University of British Columbia]: Dr. Evelyn Fox Keller continues her Node visits out west as the Cluster Visiting Scholar.

Fri. April 5, U. [University] King’s College: “Aelita: Queen of Mars” screening with live music.

Fri. Apr. 26-27, McGill University: McGill Node supports the Indian Ocean World Centreconference on “Histories of Medicine in the Indian Ocean.”

Fri. May. 3-4, York University: Conference on “Materiality: Objects and Idioms in Historical Studies of Science and Technology.”

Fri. Jun. 7-9, 2013, University of Calgary: Workshop on “Where is the Laboratory now? “Representation”, “Intervention” and “Realism” in 19th and 20th Century Biomedical Sciences.”

Mon. Oct. 21-23, 2013, U. Ottawa: Conference on “Science and Society.” In partnership with University of Ottawa’s Institute for Science, Society and Policy and the Professional Institute for the Public Service of Canada.

V. BLOGS, VIDEOS AND PODCASTS

Blogs: A fascinating array of blog entries on summer, fall and winter workshops, lectures and events are now available on our website here: www.situsci.ca/blog.

The entries treat topics as diverse as

  • “The Women Question in Science: Women in Science, Engineering and Medicine Symposium (WISEMS) 2012”,
  • “The Play’s the Thing: Putting History of Science on Stage”,
  • “The story I hold about myself: the epistemology of Mr. Wright”,
  • “Narrative Theory, Historical Ethics, Sound Reasoning Through Pseudo-Science, and Testing Implicit Bias: a day at the WISEMS”,
  • “A Week with the Wonder Photo Cannon”,
  • “Reflections on Reading Artifacts Summer Institute 2012”,
  • “Gender and the Digital Silo: Cultures of Knowledge at Situating Early Modern Science Networks Workshop” and
  • “Notes on Caring in a Technoscientific World”. Please feel free to share and comment.

Videos and Podcasts: Videos and podcasts of events are constantly uploaded and announced on our website and via our social media. The latest uploads include:

Evelyn Fox Keller speaking on “Self-Organization and God”, “Paradigm Shifts And Revolutions In Contemporary Biology” and “Legislating for Catastrophic Risk”.

Heinrich von Staden’s HOPOS 2012 presentation entitled “Experimentation in Ancient Science?

All about the University of Calgary and its microscopy and imaging facility

Leave a reply

A July 24, 2012 news item on Nanowerk features the the equipment and capabilities of …

The Calgary Microscopy and Imaging Facility (MIF) is a world-class university-wide facility housing transmission electron microscopy (TEM), scanning electron microscopy (SEM), advanced light microscopy, atomic force microscopy (AFM), including single cell force spectroscopy (SCFS), and advanced image processing for three-dimensional electron and light microscopy, directed by Professor Matthias Amrein.

Single cell force spectroscopy at the MIF has now attracted high profile research with three NanoWizard® AFM systems from JPK [Instruments], one of which is equipped with the CellHesion® module. Describing the work of the Calgary group, Professor Amrein says “While we do some work for the energy sector (to predict behaviour of nanoparticles injected into oil reservoirs) our main focus is medicine. We delve into very fundamental problems such as “how does a malaria red blood cell attach itself to a blood vessel” or “how does binding of a ligand to a cell surface receptor or contact of a crystalline surface with the plasma membrane drive lipid sorting and how will this lead to signalling” but then immediately apply it to a practical problem such as “how does contact of uric acid crystals with dendritic cells cause gout in affected joints and how can we prevent this occurrence?” We want to understand disease processes at a very fundamental level so we know how to intervene in the best possible way. For example, a chronic inflammatory disease such as gout or arteriosclerosis may be triggered by a very specific interaction of a particle (uric acid crystals, cholesterol crystals, amyloid plaque, …. ) and specific cell (dendritic cell, macrophage, T-cell, …). Understanding this interaction will lead to targeted treatment “block the interaction” rather than the non-specific dampening of inflammation such as by corticosteroids with its many well-documented side effects and limited efficacy.”

It’s always nice to get some information about activities in microscopy, etc. in Canada although I’m not sure what occasioned the news item/release.

Turing tizzy

Leave a reply

Alan Turing led one of those lives that seems more like an act of fiction than anything else. Born June 23, 1912, the centenary is being celebrated in the UK and internationally as he was an instrumental figure in the field of science. This video about the UK’s Science Museum Turing centenary exhibition titled, Codebreaker – Alan Turing’s life and legacy, only hints at some of his accomplishments and tragedies,

John Butterworth in his June 21, 2012 posting on the Guardian Science blogs describes a few of the artifacts he saw in a preview showing of the exhibit,

There is the prototype of one of the first ever general-purpose programmable computers (see picture above [in Butterworth’s posting]). Machines like this were used to help find and solve the metal fatigue problem which had caused the first passenger jets to crash. They have the relevant piece of the Comet jet, fished out of the Mediterranean. Enigma machines, including one loaned by Sir Michael Jagger [Rolling Stones] of Honky Tonk Women fame; a bottle of the hormone pills which Turing was forced to take by a profoundly grateful nation after he saved many thousands of lives in World War II, and loved a man.

There is an extensive Wikipedia essay on Turing, which provides more detail about his accomplishments  and travails including his conviction for ‘indecency’ in 1952. Homosexual behaviour was illegal in Britain at the time and once convicted Turing was given the choice, as noted in the video, of prison or chemical castration. From the Turing essay, here’s a brief description of Turning and his death (Note: I have removed links and footnotes),

Alan Mathison Turing, OBE, FRS (…, 23 June 1912 – 7 June 1954), was an English mathematician, logician, cryptanalyst, and computer scientist. He was highly influential in the development of computer science, providing a formalisation of the concepts of “algorithm” and “computation” with the Turing machine, which played a significant role in the creation of the modern computer. Turing is widely considered to be the father of computer science and artificial intelligence.

During the Second World War, Turing worked for the Government Code and Cypher School (GCCS) at Bletchley Park, Britain’s codebreaking centre. For a time he was head of Hut 8, the section responsible for German naval cryptanalysis. He devised a number of techniques for breaking German ciphers, including the method of the bombe, an electromechanical machine that could find settings for the Enigma machine.

After the war he worked at the National Physical Laboratory, where he created one of the first designs for a stored-program computer, the ACE.

On 8 June 1954, Turing’s cleaner found him dead; he had died the previous day. A post-mortem examination established that the cause of death was cyanide poisoning. When his body was discovered an apple lay half-eaten beside his bed, and although the apple was not tested for cyanide, it is speculated that this was the means by which a fatal dose was delivered. An inquest determined that he had committed suicide, and he was cremated at Woking Crematorium on 12 June 1954. Turing’s mother argued strenuously that the ingestion was accidental, caused by her son’s careless storage of laboratory chemicals. Biographer Andrew Hodges suggests that Turing may have killed himself in an ambiguous way quite deliberately, to give his mother some plausible deniability. David Leavitt has suggested that Turing was re-enacting a scene from the 1937 film Snow White, his favourite fairy tale, pointing out that he took “an especially keen pleasure in the scene where the Wicked Witch immerses her apple in the poisonous brew.”

Of course, Snow White doesn’t die because the poison puts her into a ‘sleep’ from which she can be awakened by a kiss from her true love, as per the Disney 1937 classic. This suggests to me that Turing was a bit of a ‘romantic’. Apples are also associated with forbidden knowledge (as per the bible’s Adam and Eve story) and with Isaac Newton and gravity.

There are celebrations* taking place worldwide. You can find a list of Turing events here on the Leeds University website. I did search for Canadian events and found this,

I have one more piece I’d like to include here; it’s an excerpt from a June 20, 2012 posting by S. Barry Cooper for the Guardian’s Northerner blog,

John Turing talks in the family’s reminscences about his younger brother Alan, recalling how the future computer genius was noted for:

bad reports, slovenly habits and unconventional behaviour

The ‘neurotypical’ John says that neither he nor his parents “had the faintest idea that this tiresome, eccentric and obstinate small boy was a budding genius.”

It is still very common for geekishly irritating little boys and girls to suffer misunderstanding and routine bullying at school. Nowadays Alan would probably have been diagnosed with Asperger’s syndrome.

Back in 2009 I met a Finnish artist/performer/musician who was working on an opera about Alan Turing and his life. I haven’t hear of it since but if anyone’s life ever cried out for ‘opera’ treatment, Turing’s does. I hope that opera got written and one day there’ll be a performance I can view.

*July 21, 2014 ‘celebration’ corrected to ‘celebrations’.

A sciences and humanities in Canada spring update from Situating Science

Leave a reply

For anyone unfamiliar with the Situating Science ‘cluster’ which brings together the sciences and the humanities in Canada, here’s a self-description from the Spring 2012 newsletter,

Created in 2007 with the generous funding of the Social Sciences and Humanities Research Council of Canada Strategic Knowledge Cluster grant, Situating Science is a seven-year project promoting communication and collaboration among humanists and social scientists that are engaged in the study of science and technology. We operate on a hub and spoke model of six nodes spread across the country and explore a set of four interrelated themes. These are: “Science and its Publics”; “Historical Epistemology and Ontology” (including philosophy of science); “Material Culture and Scientific/ Technological Practices”; and “Geography and Sites of Knowing”.

For more information on your local “Network Node” events, video recordings and podcasts, research themes and network, please visit: www.situsci.ca.

I think the most interesting part of the newsletter was the list of upcoming events,

HOPOS 2012

The University of King’s College and Dalhousie University, institutions of the Atlantic Node, are hosting the 9th Biennial Meeting of the International Society for the History of Philosophy of Science occurring in Halifax, June 21-24th, 2012.
Link:  http://hopos2012.philosophy.dal.ca/ 

VISITING SCHOLAR

The Cluster is pleased to announce Dr. Evelyn Fox Keller as the Cluster Visiting Scholar for 2012-13. Details will be available in coming weeks on our website.

WORKSHOPS

Two major Cluster workshops are planned for early summer 2013. The University of British Columbia will host “Translating Early Modern Science” while the University of Calgary will host “Where is the Laboratory Now?: ‘Representation’, ‘Intervention’ and ‘Realism’ in 19th and 20th Century Biomedical Sciences”.

CONFERENCES

York University will host the Cluster conference on the theme of Material Culture and Scientific / Technological Practices in the summer of 2013. Details will be available in coming months on our website.  

A conference on the theme of “Scientific Communication and its Publics” is being planned in Ottawa for the fall of 2013. The event, co-organized with the Institute of Science, Society and Policy at the University of Ottawa (ISSP) and the Professional Institute of the Public Service of Canada (PIPSC) will provide a unique opportunity and platform on which to follow up Cluster activities over the years.  Details will be available in coming months on our website.

I imagine Evelyn Fox Keller’s impending visit is causing great excitement. She is a professor emerita in MIT ‘s (Massachusetts Institute of Technology) Science, Technology, and Society Program and considered a groundbreaking academic. From her webpage on the MIT website,

Professor of the History and Philosophy of Science, Emerita (STS)

Evelyn Fox Keller received her B.A. from Brandeis University (Physics, 1957) and her Ph.D. from Harvard University (Physics, 1963). She came to MIT from the University of California, Berkeley, where she was Professor in the Departments of Rhetoric, History, and Women’s Studies (1988-1992). Professor Keller has taught at Northeastern University, S.U.N.Y. at Purchase, and New York University. She has been awarded numerous academic and professional honors, including most recently the Blaise Pascal Research Chair by the Préfecture de la Région D’Ile-de-France for 2005–07, which she spent in Paris, and elected membership in the American Philosophical Society and the American Academy of Arts and Science. In addition, Professor Keller serves on the editorial boards of various journals including the Journal of the History of Biology and Biology and Philosophy.

Keller’s research focuses on the history and philosophy of modern biology and on gender and science. She is the author of several books, including A Feeling for the Organism: The Life and Work of Barbara McClintock (1983), Reflections on Gender and Science (1985), The Century of the Gene (2000), and Making Sense of Life: Explaining Biological Development with Models, Metaphors and Machines(2002). Her most recent book, The Mirage of a Space Between Nature and Nurture, is now in press.

That listing of upcoming events gives you a sense of the Situating Science cluster’s scope. Luckily, there are many podcasts and blogs of previous events so you can catch up on anything you may have missed. Here’s a listing of some of the latest presentations which have been made available,

Isabelle Stenger’s “Cosmopolitics: Learning to Think with Sciences, Peoples and Natures”:
Link:
Paul Thompson’s “Ethical Issues in Agriculture: Organic, Locavore and Genetic Modification”
Link:
Gordon McOuat’s keynote address in India for “Sciences and Narratives of Nature: East and West” workshop entitled “Orientalism in Science Studies: Should We Worry?”  (podcast in process)
Link:

Owen Flanagan Jr’s “The Bodhisattva’s Brain: Buddhism Naturalized”
Link:
Charis Thompson’s keynote for the “Politics of Care in Technoscience” workshop entitled “The Politics of Care: Beyond Altruism and Anonymity in Biomedical Donation”
Link:

Bernie Lightman’s NS Institute of Science address “Communicating Knowledge to New Audiences: Victorian Popularizers of Science”
Link:

Enjoy!

Edmonton (Alberta, Canada) toots its nanotechnology horn

Leave a reply

I’m not sure what, if anything, occasioned the proclamation (from the May 31, 2012 news item on Nanowerk),

On the western edge of the University of Alberta’s main campus lies the National Institute for Nanotechnology (NINT), one of the world’s most advanced research facilities and Canada’s quietest laboratory space.

“NINT is helping us all to better understand the emerging science of nanotechnology. As the only centre of its kind in Canada, it puts us in a leadership position. Being located at the University of Alberta creates great synergies,” says Mike Wo, EEDC [Edmonton Economic Development Corporation] executive director of economic growth and development.

I wish there was a little more information about why Canada’s NINT is considered one of the world’s most advanced research facilities. The NINT website’s most recent news release (as of this morning, May 31, 2012)  is datedJuly 17, 2009.

I don’t receive or come across much information about NINT’s research efforts or facilities. The little information I have found (and it does not fully support the contention) comes from the University of Alberta or the University of Calgary. Is there more and where is it? If anyone knows, please do contact me either via the commenting facility for this blog or at nano@frogheart.ca.

Alberta Science Foundation, two Webbys, and nanotechnology

Leave a reply

Better late than never, as they say. The Science Alberta Foundation won a Webby in May 2011 for its animated video, Do you know what nano means? From a May 10, 2011 article by Jody McPhearson for the University of Calgary’s Today website,

The International Academy of Digital Arts and Sciences named Science Alberta Foundation’s “Do You Know What Nano Means?” the best online animated video of the year.

The video, available at www.wonderville.ca, was produced by Science Alberta with the help of a Calgary think tank including University of Calgary chemistry professor and director of the nanosciene program Dr. David Cramb and two of his students.

“I was frankly surprised even to be nominated, let alone to win,” writes a modest Cramb. “The competition was awesome. I think our advantage may have been multifold. First, the quirkiness of the animation was really catchy. It makes me think of Tim Burton [an Albertan artist drew the animation]. Second, the timing of subject matter (nano) could not have been more perfect. Lastly, the message was simple and clear. Even a child could get it, and that was the point.”

The Wonderville website, where the award-winning animation and others can be found, was highlighted here in my April 4, 2011 posting.

I belatedly learned of the award in a Jan. 8, 2012 article by Chris Nelson about the Alberta Science Foundation and its chief executive officer (CEO), Arlene Ponting, recently voted one of Canada’s 100 most influential women for the third time in a row, for the Calgary Herald,

In June, the foundation was honoured in New York with two Webby awards – international awards honouring excellence on the Internet.

“We created an animation on nanotechnology showing how small nano actually is. It was a very difficult concept because nano is so small people can’t imagine it.” [said Ponting]

Up against 10,000 applications from more than 60 countries, the foundation won in the film and animation categories. In accepting, they were allowed five words to describe their entry and their vision.

They chose: Small Is the New Big.

“Nanotechnology is a small science, but has a huge impact and the Science Alberta Foundation is a small organization, but we have a huge impact. Last year we provided over a million science experiences through our program so the parallel is serendipitous.” [said Ponting]

There’s more about Ponting in the article; I wanted to focus on the nano.

NanoProfessor education programme comes to the University of Calgary

1 Reply

In what appears to be a Canadian first, the University of Calgary has purchased a nanotechnology curriculum, NanoProfessor, from a company that also sells nanofabrication products, NanoInk. From the April 11, 2011 news item on Nanowerk,

NanoProfessor™, a division of NanoInk, Inc.® focused on nanotechnology education, announced today that the University of Calgary in Alberta, Canada is the first school in Canada to implement the NanoProfessor Nanoscience Education Program. The University of Calgary’s Nanoscience program aims to provide participants with working knowledge of nanotechnology and valuable exposure to cutting-edge instrumentation used to fabricate nanomaterials. The NanoProfessor Program helps the University of Calgary meet this objective by providing instrumentation, curriculum, and hands-on labs to expand students’ understanding, skills, and real-world experience needed to succeed in the growing nanotechnology industry.

“We are proud to be the first school in Canada to implement the cutting-edge NanoProfessor Nanoscience Education Program. We are committed to providing our students with a meaningful education based on the principle of learning science by doing science,” said David Cramb, Director of the Nanoscience program at the University of Calgary. “Not only does the NanoProfessor Program enhance our ability to provide students with a practical learning experience, but NanoInk’s NLP 2000 Desktop Nanofabrication System allows us to expand our research capability through the versatility of Dip Pen Nanolithography® (DPN®).”

This reminds me of some of the product placement on television programmes but here the product placement is part of the curriculum. As I recall, Apple pioneered this technology incursion into schools. The idea being that if you give (or sell computers for a good price to schools) so children learn using your equipment they are more likely to purchase it as they look to own it for themselves.

Here’s a bit more about NanoProfessor,

NanoProfessor is an exciting and comprehensive Nanoscience Education Program combining cutting-edge desktop nanofabrication instruments with a stimulating curriculum. Students will be immersed into the rapidly growing field of nanotechnology through real hands-on experience in building custom-engineered nanoscale structures. With an incredible range of new applications from building solar cells to fighting cancer cells, nanotechnology is the future of science and engineering education.

And for more about NanoInk, you can go here.

By the way, I have an interview with David Cramb in my March 8, 2010 posting.

Canadian helps to revise periodic table of elements

Leave a reply

A professor (Michael Wieser) at the University of Calgary is making a bit of a splash, so to speak, with his contributions to the changes being made to the periodic table of elements. According to the Dec. 15, 2010 news item on the CBC News website,

Science’s ubiquitous periodic table of the elements is getting a fresh face courtesy of a team led by an Alberta researcher.

As part of the revamp, the atomic weights of at least 10 elements — among them oxygen, carbon and nitrogen — are to be restated, said Michael Wiesner [sic], an associate professor at the University of Calgary.

The update is meant to better reflect how the elements vary in the natural world.

To start with, an international group of scientists will restate the weights of 10 elements, classifying them as a low and a high, known as an interval. The interval varies depending on where the elements are found in nature.

“These are the 10 where we’ve completed the review,” Wieser said on Tuesday. “There’s another series we’re working on right now.”

Apparently, this is the first revision of this type (there have been many additions and moves) to the table since it was developed in 1869 by Mendeleev. (The table is attributed to Dmitri Mendeleev although the history of its development is a little more complicated than I have time for here. Sam Kean’s book, The Disappearing Spoon: And Other True Tales of Madness, Love, and the History of the World from the Periodic Table of the Elements, goes into more detail about it all.)

The implications of these 2010 changes are quite interesting,

Wiesner [sic], who is secretary of the Commission on Isotopic Abundances and Weights for the International Union of Pure and Applied Chemistry, has co-authored a paper outlining the revisions in the journal Pure and Applied Chemistry.

“People have used atomic weight data to look at nuclear processes occurring in the solar system … we can say something about the formation of the solar system and the planets,” he said.

“People are probably comfortable with having a single value for the atomic weight, but that is not the reality for our natural world.

As noted in the Dec. 15, 2010 news item on physorg.com, an impact will be felt in the classrooms,

“Though this change offers significant benefits in the understanding of chemistry, one can imagine the challenge now to educators and students who will have to select a single value out of an interval when doing chemistry calculations,” says Dr. Fabienne Meyers, associate director of IUPAC.

Not all elements will undergo changes (from physorg.com),

Elements with only one stable isotope do not exhibit variations in their atomic weights. For example, the standard atomic weights for fluorine, aluminum, sodium and gold are constant, and their values are known to better than six decimal places.

I think someone got a little overexcited about this,

For the first time in history, a change will be made to the atomic weights of some elements listed on the Periodic table of the chemical elements posted on walls of chemistry classrooms and on the inside covers of chemistry textbooks worldwide. [emphasis mine]

The periodic table of elements is an intellectual construct which was developed in the mid-19 century. For me and most folks, science provides our best guesses but very rarely any certainties. Gravity is a law of physics at the macro level (unless someone manages to prove differently) but when you’re talking about the quantum world, we believe and it seems to be true, experimentally, that a whole other set of rules apply.