CN: Gender, Education and Technology

Assignment Response: (Notes follow)

A little personal background that may cloud my reading of the articles we had to look at. Okay, it did, mostly because I spent a lot of time rolling my eyes. Quick summary: I grew up the eldest of three daughters, and my mom often told me our father was determined that none of his daughters would be captive to anyone for lack of skills. So I spent my very early years on construction sites, had a computer at home to play with by age 7 (where I learned the basics of DOS), and was encouraged to excel in shop class as much as home-ec. I know my way around a tool belt just as well as a set of kitchen utensils. I grew up skipping the fashion pages of women’s magazines and wore out my science magazines for children. I love computers, can hand-code in HTML and CSS, and was sad when I lost my de-commissioned Andriod phone and wouldn’t have a new toy to explore the capabilities of. But enough about me.

Have you observed differing gender approaches in the way students use present classroom technology?

My students don’t engage much with technology from an educational standpoint, but they do really love their smartphones. I would say, anecdotally, that while both male and female students are likely to be distracted by Kakao Talk (a free chatware program that is almost ubiquitous in Korea), the males are more likely to be playing Minecraft or game on their phones than the females are.

Does the type of technology being used make a difference in gender neutrality?

As far as type is concerned, there may be a difference in how the technologies are used rather than which technologies are used, or their intended purposes. As mentioned above, the women seem to be exclusively concerned with social matters, while the men split their time with socializing and games. Both watch TV and play music on their devices.

Have circumstances in computer mediation changed in the last ten years?

I have to agree with what Mark Rooney posted earlier [in the class chat] about the rise of a commenting culture and its lack of civility. As a woman who has posted in very male-dominated fora, my comments have sometimes been quickly dismissed or sexualized (and then dismissed) rather than taken for their content. It seems rather adolescent, these hyper-masculine environments where people are constantly scrapping to be alpha male, rather than concerned for content of argument. I am happy that this seems to be limited to certain corners of the Internet, and that many other places the value of what you contribute will get you thanks and respect rather than the gender you present.

Do females participate differently when on-line?

This is entirely my perspective, but I would say that in many ways the Internet amplifies your character. If you’re lacking in public civility under a veneer of politeness, that’s going to come out. If you’re insecure and want to look like a hot-shot, that’s going to come out. If you’re primarily motivated to help people, learn and expand your personal horizons, that’s going to come out. Without the social boundaries that face-to-face contact enforces (generally speaking), behaviour is a little more raw, a little more unfiltered, and reveals something about us that may normally stay a little more hidden.

So from that idea, I would say that everyone participates a little more differently online. If you have a desire to speak up and be heard, you’re going to have fewer barriers to that. If you want to sit back and observe, lurking is a well-known phenomena online. I would say that both females and males participate differently online than in real life; it’s a consequence of the media itself.

Do you agree with the views and steps that need to be taken to insure gender equality in use of computer technology?

Yes and no. Yes, we need to encourage our female and male children to explore what they are curious about, to learn how things work and learn to master our tools. These things, however, are not sufficient to change the culture and bring more women into positions of authority and decision-making power as CIOs or other agents of change. There is something deeper in our culture that is perpetuating the dominance of males in these roles, and it’s not a lack of merit on the part of women, as some of the articles in the readings demonstrated (the one from CIO outlining the stories of several women, for example). If females are succeeding in school and teachers are focusing their efforts on males causing disruptions over education in general (Ostrander, 1996), it’s not just the females that are losing out on instruction time. I find Chapman’s (n.d.) assessment that it’s a problem with teachers’ behaving in a way that discriminates against girls to be overly simplistic and perhaps mis-directed. It’s not simply that  teachers are giving boys disproportionate amounts of time and attention because they are favoured; boys demand that much time and attention just to keep them on task and maintain a safe learning environment for all the students.

What are the beliefs and strategies employed by parents and teachers that inform their perspectives and approaches to gender and computers?

Notes from: Gender Bias in Education (Chapman, A., n.d.)

  • boys and girls perform equally when they enter school, but girls fall behind by graduation from high school.
  • Yet, boys are also more likely to be failing, “learning disabled,” and involved in criminal activity, be it drugs, alcohol, or other crimes.
  • Boys are also more likely to drop out
  • Yet, it seems the strengths of girls come in spite of their treatment, lack of attention to sexual harassment, boys are given leeway with rowdiness, and in other socialization.
  • Teachers socialize for feminine traits: neatness, quietness, calmness; boys for independent thinking, active participation and speaking up. Girls are socialized to see popularity as important, educational performance and ability less so. Boys learn to value competence and independence.
  • 2001 study by Reay listed in the article citied female assertiveness as a negatively-regarded trait, while for boys it was merely self-assertion.
  • sexist, racist, homophobic and violent interactions are under-disciplined, and comments that boys cry or throw “like a girl” go (apparently) unchecked, reinforcing the idea that girls are inferior.
  • Texts and other resources have implicit gender socialization, and are unbalanced toward women as scholars, inventors and initiators of events.
  • Article argues that to combat inequities, teachers need to be made aware of how they are being unequal in their teaching and then given methods to change their ways. The results of one study demonstrated that these resources could combat poor pedagogy.
  • In addition, teachers need to be critical of the teaching resources and textbooks. Good texts should be “inclusive, accurate, affirmative, representative and integrated” and include the stories of both males and females in a way that includes the experiences, needs, and interests of both. From here, teachers can also help Ss identify biases and take a critical approach to their own texts. (is this enough? Is it sufficient to be critical, or do the stories outweigh the criticism, or “what we know in our heads to be true”? Also, can we equally represent everyone? Will that maintain the qualification of “accuracy”?)

Notes from: Equity in Computer Classrooms (Ostrander, 1996)

  • social norm: computer literacy is the domain of white, male hacker-types
  • computers and high-tech equipment are related to math and computer science, typically male-dominated areas.
  • Article says females and minorities are rarely encouraged to aspire to higher levels in the disciplines.
  • teacher feedback reinforces gender norms, with maleness being associated with high achievement and femaleness with low achievement.
  • Boys of every ethnicity get more attention than girls (mostly to prevent/manage behavioural problems)
  • feedback to boys is more critical and precise, helping them improve their skills, while girls receive neutral feedback, less geared toward how they’re doing and how they can improve or succeed.
  • several myths around technology instruction also exist, highlighting “natural” reasons for male superiority, socio-economic reasons to teach them computer expertise, and perceived biases in teaching that people learn better from their own “type.”
  • General statements without support about many people believing the myths and society reinforcing them.
  • These attitudes are particularly dangerous to our futures, as we are increasingly reliant on computers for just about everything in our lives.
  • concludes with a list of attributes of an equitable classroom, reinforcing ideas stated earlier in the article.

Notes on: Gadget makers target women (Hermida, A., 2002)

  • Skip the specs and tell women you have a version in pink.
  • Puke.

 

CN: Myths, One-liners and Technology in Education

Notes from: Public Perceptions of Nanotechnology and Trust in Government – Major Findings of 2004

  • Macoubrie (2005) warns of uncritical acceptance of nanotechnology in our day-to-day lives as we don’t have sufficient information regarding its long-term ramifications, encourages productive and regulatory stakeholders to consider public opinion when determining what oversight is necessary.
  • Draws highlights from two 2004 studies by National Science Foundation to explore citizen perceptions of nanotech. The first focused on how the ideas were presented to the general public and who the public trusted to protect them from possible dangers. The second dealt with how informed citizens were reacting.

The national, general survey

  • showed positive reaction to the potential benefits although general ignorance about the technology.
  • This was centered around medical concerns/breakthroughs.
  • The West Coast and Midwest showed the lowest trust in the government to manage risks in these areas.
  • Public uncertain of risks/benefits having positive ratio

The informed citizens survey

  • had effectively no trust in government or industry to manage risks
  • Concerns were not based on present information but on evidence of previous scenarios where downsides were not recognized until much later
  • Concerns not specific to nanotechnology but rather general failures to manage risks with other new technologies (once bitten twice shy)
  • Concerns largely mirrored contemporary political memes (“evil doer,” world military), along with health and environmental impacts
  • higher education positively correlated to distrust in government risk management.
  • This article is a collection of myths that have come to define how some interact with their computers.

Notes from: Computer one-liners

  • A collection of puns, etc, on the topic of computers/computing, most, like other one-liners, lame.

Notes from: Advantages and Disadvantages of Computer Networks

  • Explains what a computer network is, and highlights pros and cons of using one.
  • Highlighted Pros: File sharing, resource sharing, increased storage capacity, increased cost efficiency.
  • Highlighted Cons: Security issues, rapid spread of viruses, expensive setup, dependency on main file server
  • I would argue that the final idea of a primary file server is unnecessary depending on setup (such as torrents use). The computer only needs to know where the files are stored to obtain them.

Notes from: Technology and social control: The search for the illusive silver bullet

  • “The last half of the 20th century has seen a significant increase in the use of science and technology for purposes of social control.” (para 1)
  • “As used here social control refers to efforts to enforce norms by preventing violations or discovering and apprehending violators, rather than to other aspects of social control such as the creation of norms, processes of adjudication and sanctioning, or the broad societal guidance and integration which was of concern to early theorists of industrialization and urbanization.” (para 2)
  • The view that derivatives of science (ie, new technologies) are fair and impartial does not account for the social interpretation of the outputs or information gathered by these technologies.
  • Security, from its earliest forms of locks and moats, has been about social control
  • contemporary control is more manipulation than coercion
  • in an engineered society, violations are eliminated or limited by controlling the physical and social environments. The key is prevention. Problems are anticipated and designed away, or where this is impossible, some deterrence (identification and apprehension; reduction of gain) is employed.
  • Six social engineering strategies:
    1. Target removal: cashless society, furniture that is part of the structure, graffiti-resistant bus/subway exteriors, etc
    2. Target devaluation: self-destructing car stereos, dye packs in bank robberies, access codes for consumer technologies, biometric identifiers, etc.
    3. Target insulation: gated communities, skywalks, networked video of public space, etc.
    4. Offender incapacitation: chemical castration, tranquilizers, pepper spray, cars that have breathalyzers connected to ignition, background checks on firearm purchases, adding a foul odour to aerosols to prevent huffing
    5. Exclusion: electronic anklets/bracelets, potentially eugenics, jail
    6. Offence/Offender/Target identification: document the occurrence, offender, and apprehend them, personal alarms, possession removal alarms, organized citizen snitching

Other concerns: Not all of these have equal weight in different cultures. More research has been performed on those who violate rules than those who enforce them.

Implications: Technology is the purview of those who can afford it. More technology creates a greater demand for neutralizing solutions, high or low-tech. False-positives are common.

What does this have to do with myth? Perhaps the myth that technology can make us safe. 

Notes from: Computer intelligence will outpace the human brain by 2030

  • Behold the mighty computer! We are on pace to make something smarter than ourselves!
  • Maybe.
  • If we can get it to “think” like us.

Notes from: Computers and cultural transformation

  • This article is a bit dated, citing technology popular in the mid-90s as current (IRC, MUDs, etc)
Notes from: Computerized Gods
  • Enjoyable!
  • The central thesis is that science is our newest monotheistic religion, and the computer represents our god. Having made god in our own image, we then conflate reality with the idea that we are little gods (the computer in the head). We have created a deserving offspring to outlast our eventual demise as a species, carrying on through space, calculating and working on our behalf, even when we are gone.
Final comments: I think I’ve become a little tired of reading as I get toward the end of this section.
The assignment is:

  • Once you have reviewed scanned/read the above, spy out a trend, one liner, issue, argument, concept, revelation, hype, etc…..that you found particularly interesting, worrisome, intriguing etc.
  • Provide some short statement of what is meant by the statement to describe what you have found…. and then go a bit further….locate a more focus description of same.
I found several of the articles interesting. The first article about nanotechnology caught my eye as I am involved with bringing current research on nanotechnology to publication by proofreading and providing basic feedback on papers bound for publication. The research and its applications are truly fascinating. I found the distrust by the “educated” in this research to echo my own sentiments, although I would suggest the warnings against wide-eyed embracing of technology simple wisdom because it’s new to be appropriate regardless of the promises offered. I think we are all looking for something to improve our quality of life, and many are so desperate, for reasons of illness or otherwise, that they are willing to be human guinea pigs in pursuit of a slight extension of life.
Additionally, I would like to add what seems to be a technological fallacy, despite the relatively recent nature of the article. In it, Srivastava (2011) lists a disadvantage of networks in its dependence on a main file server. While this is true of some networks it certainly is not true of all. This position does not reflect the current reality of torrents, through which file-sharing (a listed advantage) occurs without the file being hosted in a central location. Rather, it is entirely de-centralized and can remove the need for a main file server that is vulnerable to failure. Another example contrary to this is a botnet, a decentralized army of computers created (usually) by virus or worm that brings thousands of infected computers together to share resources and complete a task, albeit often malicious.

 

Multiple Intelligences and My Learning Style

As per the guidelines of one of my grad school courses, I was to take this test on Multiple Intelligences and reflect on the following questions:

  • What are your areas of personal strength?
  • How should learning be structured to best meet your personal needs? What needs to occur in the teaching-learning process to help develop your other intelligences?

Here are my test results:

Kim's Multiple Intelligences Test Results
My results.

The complete list of intelligences and their relationships to learning are available if you’d like to look a them. I’m not too sure what to make of it. I’m not very surprised that my music score was high, but I am surprised that my visual/spatial was not higher. Also, while I didn’t do well in French class in high school, I have always used writing/note taking as an integral aspect of my learning process. Often going to lectures and taking notes (which were thorough enough to command audiences at exam time) was sufficient for my studies. Reading alone, however, has been a struggle, unless I have a high degree of intrinsic motivation for the subject matter.

To answer the questions:

  • What are your areas of personal strength?

My strongest area is Musical Intelligence. As I mentioned above, this comes as no surprise, nor should it to anyone who knows me. Aside from singing, I have learned at some point to play about a dozen instruments to varying degrees of mediocrity. While not a fantastic player, I learned to play most of them to a level of personal satisfaction and good enough for public performance, but hardly the calibre of professional performing musicians of any stripe. Most of my extra curricular pursuits from elementary onward involved some sort of music study, and even now I love few free-time activities as much as attending a concert, although I seldom do so.

From there, I have a clump of intelligences for the next six, starting six points down from Music and themselves having only a six-point spread. Then it’s another seven-point drop to Intrapersonal. From this I can see a clear separation between my strongest and weakest points to “the pack,” but the middle has very little differentiation, and may be partially due to my answers on this particular day or the questions asked.

I often call myself a jack-of-all-trades, master-of-none, and in my own life have had a difficult time settling on a graduate program to pursue. I’ve been interested in international relations, business, communications, graphic design, computer science and linguistics; I’ve even considered going back to school and doing a professional degree in engineering or architecture. That’s really quite the gamut. I frequently find my time-wasting on the Internet drawn to one of these areas of interest. It comes as no surprise that I have such a clump of intelligences so tightly packed around the middle.

But of the two intelligences tied for second-place, I would have to say when it comes to formal learning, the body/kinaesthetic aspect is more important to me, usually in combination with visual/spatial. While some would argue that my note-taking in high school and university was more evidence for my linguistic intelligence, I believe it was the physical creation of the words on paper, manifesting them in something visual as I listened to the lecture and observed my professors, that helped ingrain these ideas onto my memory.

I love all things mechanical and creative. From early elementary school I have memories of taking apart machines just to see how they worked. I was thankfully wise enough to limit myself to what a screwdriver or set of pliers could put back together; things that were soldered or glued in place were left alone for fear of upsetting my parents by “breaking” something. Thankfully it never came to that, and I secretly continued to pull things apart for the mere joy of understanding them and putting them back together. I think this disassembly-reassembly grew in concert with my visual-spacial skills, making it easier for me to visualize multiple dimensions in my mind when constructing or creating things in my heads’ space.

 

  • How should learning be structured to best meet your personal needs? What needs to occur in the teaching-learning process to help develop your other intelligences?

To meet my personal needs, learning should take place in an environment where I receive some visual instruction as well as have the opportunity to physically process either the information or the physical product I am studying. If it is possible to put rote memorization to music, I am more likely to remember it; as evidenced by my memory of my musical multiplication tables from over twenty years ago to high-school history jingles for classes I never even took.

To develop my other intelligences, I would most need to focus on my intrapersonal skills. My areas of particular weakness are self-understanding and sometimes with self-paced instruction. Where I am highly motivated, I have no problems progressing through materials, but without this I find more interesting pursuits for my time. As my greatest strength is music, either putting a series of tasks to a jingle or short song/chant might work as a meditation to keep me on task. I also find using outside time managers (such as the Pomodoro Technique) help me to get in some solid work time toward completing an undesirable or externally-motivated task. To help with my inner, personal development, again some kind of music-based chant or song might be enough to help me reflect on the day or task I have completed and visualize for the day ahead. I am not sure how any particular course or program that was not intentionally designed for such growth could encourage it.

In closing, I thought the exercise was interesting, as were the results, but I’d like to take the test again, and possible have another person take it on my behalf based on how they see me. I find the very idea rather attractive and it could lead to some very thought-provoking results. And maybe that’s just what I need.