I wanted to start off by noting that the abstract for Feminisms in Engineering Education: Transformative Possibilities threw me for a little loop; I was a little confused at the beginning. The abstract states outright that “The goal of this paper is to examine the possibilities for EXPLICITY feminine work in engineering and engineering education” (21, my emphasis), while going on to state that “thus feminist visions of engineering might address a BROAD set of concerns such as militarism, racism, and global economic inequality as well as sexism and heterosexism” (ibid, my emphasis). At first, this confused me, but as I read through the article I figured that a feminist LENS was being applied with a nod to intersectionality, i.e. looking at how different societal factors come together, as opposed to isolating one specific factor. Hence, this is why the word “explicitly” threw me off.
However, I wanted to focus specifically on the third feminist framework explored in this article, “Learning from Antiracist and Liberatory Feminist Approaches”. It is mentioned that post-colonial scholars in particular shape this framework, by introducing the discourse of power relations, and how power is used to oppress. An example of how this discussion is applied in the classroom is by making it part of the course content, in connection with the science material. This is a wonderful example of lending both contextuality and interdisciplinarity to course content. However, while thinking of power relations, I thought to connect this to a very important insight that Hess brings up in Conclusions: Science, Technology & Multicultural Education.
He identifies that engineering schools tend to have a “boot camp” mentality, and that this culture is masculinist in nature for the STEM curriculum (252). This harsh, unforgiving environment, I argue, is directly associated with the phenomenon of the engineering pipeline. I can apply it personally: sophomore year, first real aerospace engineering class, AERO 215: “this class is based on MATLAB, go ahead and buy it, and play around with it for about 30 hours for next week, because you’ll do your homework with it.” Nevermind that the course was only 2 units and we would be spending 20+ hours per week working outside of class, and that the MATLAB course offered by the Computer Science Department, CSC 111, was only recommended and not a perquisite for AERO 215, and on top of that, that there was no lab section offered to help the students learn the program through exercises. Oh, and also that it was taught by a grad student, in a department that has a small student size and adequate number of professors.
This might sounds like a rant, but this is the exact quarter when I decided that I was dropping AERO as a major. The worst part of it is that complaining gets you nowhere, as the older students and even professors might tell you, this is just the way it is, and if you want in, you’ll have to hurt. So the power that is being exerted here does not only have to do with course content, but more so with underlying expectations. These expectations, moreover, serve to weed out students, which I feel is an unspoken agenda of the College of Engineering, in my opinion. But which students are weeded out? I was one of them: a female, Chicana student. And I saw many other such instances of minority students being weeded out. And when they are “weeded out”, having been defeated by this “boot camp” mentality, they are required to STAY OUT. At least at CalPoly, you are told that you cannot be readmitted to the College of Engineering once you are kicked out.
The huge problem with this is that students are being kicked out not because they do not have the intelligence to learn, but that the expectations of the curriculum are often too hard to satisfy. And those students who come from white, economically-sound backgrounds usually have more resources to help them stay afloat, while minority students are drowning. And this makes for a showcase of “look, they can’t make it” thereby reinforcing stereotypes of underachievement and failure. There needs to be an “overhaul”, as Hess points out, of this mentality that reinforces the traditional, masculinist hierarchy of power, as feminists would point out, that just asks too much of any student.
Works Cited
Hess, David. "Conclusions: Science, Technology, and Multicultural Education." Science and Technology in a Multicultural World. New York: Columbia Univeristy, 1995. 250-59.
Riley, Donna, Alice L. Pawley, Jessica Tucker, and George D. Catalano. "Feminisms in Engineering Education: Transformative Possibilities." NWSA Journal Summer 21.2 (2009): 21-40.
Friday, March 11, 2011
Wednesday, March 9, 2011
Who's the real genius?
Progress, innovation, sustainability, hard work. Staples of pride for Americans. The progress of technology is essentialized, idealized, placed on a pedestal of praise. Advertisements are great representations of what the people are interested in. What we want, they sell; and how we want it, well, that’s how they present it. Maybe you’ve seen this commercial: http://www.youtube.com/watch?v=XHvUZ9THmNU . The obvious selling point is progress, and the ad celebrates its inevitability. We enjoy the idea of progress and love to show it off, as if having the newest technology demonstrates our ability to progress, and we embrace that. There’s nothing wrong with embracing progress, or arguably even showcasing it. Take pride in our achievements because they truly are phenomenal. Just look how far we’ve come! Not even Benjamin Franklin could’ve envisioned the ipad and that dude came up with some really innovative creations. Even in the last fifteen, ten, FIVE years, the progression our technology has achieved is remarkable. Let us remark upon it. Let us bask in our certain demonstration of human achievement. And we all know there’s some crazy stuff going on in GE, Google, Audi, Apple, and countless other centers of innovation that we may or may not have heard of (yet). We rightfully applaud these creators. Our politicians are dedicating a huge portion of our educational budget to these types of innovations. We do big things, and we are going to Race To The Top of the world’s technological strata once again. It’s a technological arms race and we’re dedicated to demonstrate our abilities. All it takes is for us to work hard, and study hard in school and we’ll be a nation of innovation!
But…
What if we celebrated progress as a society? No, not givin’ it up for MLK on that day off from work in Mid-January. No, not dedicating an entire 1/12 of all the months of the year to black history. No, not showing the pity of that nice white family in Memphis that made Michael Oher’s dreams come true. No, none of these superficial ways of making everyone feel better about not being as oppressive as we used to be. What if we celebrated progress as a society in the same way we celebrated technological progress? What if we thought of Martin Luther King, Jr. like we did Albert Einstein? (But Einstein’s b-day doesn’t get us a day off… But who do we reference when we call someone a genius?) I can’t and don’t wish to argue against Einstein’s brilliance. He was truly a hero for the progress of science. But what if we considered the two as at least equal? What if we treated Dr. King as a superior thinker? After all, Einstein had to have his own door painted red so he could know which house was his. MLK knew where his home was, America. MLK led a revolution that has made his home better for MILLIONS of people. And not just for black people, not just minorities, but all of us who have lived since the civil rights era. Our world, our homes, the lives of our American and human brothers and sisters, are all vastly better of because of Martin Luther King’s brilliance. His articulate speech, his philosophical prominence, his dedication, his hard work, his leadership, and his innovation combined to make one hell of a man. And what progress he made and initiated! What if we thought of him in such a way, the way that he truly was. The way that his everlasting influence will put the United States back On Top of the world for its progress in equality, freedom and standards of life for all. 3-D tv’s don’t mean much if you can’t afford cable. Things don’t bring us the same happiness that love and liberty do. If they did, I would have no use for anyone besides the ones making all my stuff. And shoot, in twenty years we’ll have the technology that we don’t even need them at all! In that same twenty years, what if we have a land where all people are created and treated equal?
Our constitution doesn’t base its principles on laptops, robots and the pursuit of the next new thing. Our founding fathers didn’t start a revolution so we could have the best technology. So why are we praising the wrong things? I have nothing against scientists and engineers. I have a bunch of friends that are engineers. (Irony intended, but it is indeed true.) I love my computer, my car, the keyboard on my phone and the lights above my head. But what about those things that give us love, hope, knowledge, freedom and justice? What about teachers, preachers, activists and revolutionaries, even at the small scale? Why don’t we recognize the difficulties of teaching? Why don’t we say, “that Jimmy’s a smart boy, he’s probably going to grow up to be a teacher!”? Why don’t we recognize? Why is our focus shifted in such a way? Why do we operate in these paradigms? I would love to know.
Hess’ “Conclusions: Science, Technology and Multicultural Education” presented us with an interesting statistic form the 1990’s that “in the year 2000, only fifteen percent of new additions to the American labor force will be native-born white males.” The rest will be made up of immigrants, people of color and women. Or so it wrongfully speculated. The statistic was widely used, according to Hess, and similar ideals are falsely promoted in boardrooms across America. “ ‘Our country is a United Nations of people from all over the world: men, women, foreigners, blacks, whites, Hispanics. We all get along because we treat each other as individuals.’ “ These folks can talk, but all the statistics seem to prove otherwise. Reality proves otherwise. We are only taking false, superficial steps towards true equality. Mr. I Love Black People doesn’t really think affirmative action is a good idea, though, it’s making it unfairly more difficult for white kids to get in. What about the standards of acceptance, sir? What about SAT prep and AP classes being available in white, upperclass schools far more readily and frequently? Is that unfair? What about setting up an educational system that praises the removal of the music building to make way for a laboratory? Does that unfairly make school more difficult for creative, artistic students? Affirmative action isn’t new and it isn’t gone. It’s been here for a while and running rampant, we just talk about it differently. We just advantage a different group with it.
Sue Roesser has developed a way for women to achieve success and find enjoyment in engineering (Loftus, 2003, Prism Magazine). She innovated. Why aren’t schools like this popping up everywhere? Why isn’t she as appreciated as much as she should be?
What does it say about us as people, as a people, that we are more interested in the progress of things than of our fellow humans?
But…
What if we celebrated progress as a society? No, not givin’ it up for MLK on that day off from work in Mid-January. No, not dedicating an entire 1/12 of all the months of the year to black history. No, not showing the pity of that nice white family in Memphis that made Michael Oher’s dreams come true. No, none of these superficial ways of making everyone feel better about not being as oppressive as we used to be. What if we celebrated progress as a society in the same way we celebrated technological progress? What if we thought of Martin Luther King, Jr. like we did Albert Einstein? (But Einstein’s b-day doesn’t get us a day off… But who do we reference when we call someone a genius?) I can’t and don’t wish to argue against Einstein’s brilliance. He was truly a hero for the progress of science. But what if we considered the two as at least equal? What if we treated Dr. King as a superior thinker? After all, Einstein had to have his own door painted red so he could know which house was his. MLK knew where his home was, America. MLK led a revolution that has made his home better for MILLIONS of people. And not just for black people, not just minorities, but all of us who have lived since the civil rights era. Our world, our homes, the lives of our American and human brothers and sisters, are all vastly better of because of Martin Luther King’s brilliance. His articulate speech, his philosophical prominence, his dedication, his hard work, his leadership, and his innovation combined to make one hell of a man. And what progress he made and initiated! What if we thought of him in such a way, the way that he truly was. The way that his everlasting influence will put the United States back On Top of the world for its progress in equality, freedom and standards of life for all. 3-D tv’s don’t mean much if you can’t afford cable. Things don’t bring us the same happiness that love and liberty do. If they did, I would have no use for anyone besides the ones making all my stuff. And shoot, in twenty years we’ll have the technology that we don’t even need them at all! In that same twenty years, what if we have a land where all people are created and treated equal?
Our constitution doesn’t base its principles on laptops, robots and the pursuit of the next new thing. Our founding fathers didn’t start a revolution so we could have the best technology. So why are we praising the wrong things? I have nothing against scientists and engineers. I have a bunch of friends that are engineers. (Irony intended, but it is indeed true.) I love my computer, my car, the keyboard on my phone and the lights above my head. But what about those things that give us love, hope, knowledge, freedom and justice? What about teachers, preachers, activists and revolutionaries, even at the small scale? Why don’t we recognize the difficulties of teaching? Why don’t we say, “that Jimmy’s a smart boy, he’s probably going to grow up to be a teacher!”? Why don’t we recognize? Why is our focus shifted in such a way? Why do we operate in these paradigms? I would love to know.
Hess’ “Conclusions: Science, Technology and Multicultural Education” presented us with an interesting statistic form the 1990’s that “in the year 2000, only fifteen percent of new additions to the American labor force will be native-born white males.” The rest will be made up of immigrants, people of color and women. Or so it wrongfully speculated. The statistic was widely used, according to Hess, and similar ideals are falsely promoted in boardrooms across America. “ ‘Our country is a United Nations of people from all over the world: men, women, foreigners, blacks, whites, Hispanics. We all get along because we treat each other as individuals.’ “ These folks can talk, but all the statistics seem to prove otherwise. Reality proves otherwise. We are only taking false, superficial steps towards true equality. Mr. I Love Black People doesn’t really think affirmative action is a good idea, though, it’s making it unfairly more difficult for white kids to get in. What about the standards of acceptance, sir? What about SAT prep and AP classes being available in white, upperclass schools far more readily and frequently? Is that unfair? What about setting up an educational system that praises the removal of the music building to make way for a laboratory? Does that unfairly make school more difficult for creative, artistic students? Affirmative action isn’t new and it isn’t gone. It’s been here for a while and running rampant, we just talk about it differently. We just advantage a different group with it.
Sue Roesser has developed a way for women to achieve success and find enjoyment in engineering (Loftus, 2003, Prism Magazine). She innovated. Why aren’t schools like this popping up everywhere? Why isn’t she as appreciated as much as she should be?
What does it say about us as people, as a people, that we are more interested in the progress of things than of our fellow humans?
Reading Response #3
The PBS overview was rather extensive and provided an equal amount of information from both perspectives about this controversial issue. I thought it was beneficial how the article was separated into different sections to better describe the separate issues.
Tuesday, March 8, 2011
Feminisms in Engineering Education: Transformative Possibliites
Reading Response #3
I really enjoyed reading this piece, and I feel Riley and authors had many well developed points that I feel are crucial to being a socially conscious and careful engineer.
The discussion of the idea that "the problem of women's underrepresentation in engineering indicates deeper more fundamental problems about the nature of the profession and engineering education" (p. 3) poses a really great perspective that has not been brought up yet: the fact that it is deeper underlying issues within the profession and education that causes underrepresentation, instead of the issue itself being women are simply "not interested" in the subject which over simplifies the issue. Riley goes on to say that when the underrepresentation of women is defined narrowly as a problem in itself, equally narrow solutions, ones that don't adequately address the issue, are created (p.3) and argues that we must take a deeper look at the structure of the profession instead of asking repetitive questions such as "where are the women?" and "why so few?" (p. 3).
Another aspect that intrigued me was the discussion of intersectionality and how it is important to address these issues within the engineering profession and education rather than simply looking at race and gender individually (p. 4). Although I agree with the authors because only identifying and analyzing one form of oppression when trying to solve an issue is counterproductive and often times perpetuates these forms of oppression onto one another, I feel it would be very difficult to address the idea of multiple forms of oppression and intersectionality within the engineering workplace and it may backfire. This is because the idea and concept of intersectionality is one that we all deal with, but it is not something that is easily defined, identifiable and understood to the point where it could be adequately addressed in a setting where this is not a focus. This idea of intersectionality is extremely complex not only because it confronts different forms of oppression (gender, class, race, sexuality, etc.) but because it confronts hierarchies that exist within individual companies, the profession itself, and education and may conflict with the values that those companies have. Because of these issues, it may be hard for a company who has many clients and deadlines to effectively address deeply rooted factors causing inequalities, unless, like the authors say, implemented within education, but carefully and with just as much emphasis as engineering curriculum.
Finally, the issues of the definitions of progress for different communities was addressed as well. The author's gave the example that most of the work the work women do is simply ignored, for example, low-tech but high-impact solutions (such as inexpensive water filtration systems for 3rd world countries) are dismissed and not considered acceptable engineering (p. 7). The authors go on to explain that educators focus on high-tech engineering in "first-world" rather than focusing on solving problems experienced by women and people in poverty (p. 7). This puts into perspective the reappearing questions of "What is good engineering?" and "What is progress?" Offering the idea that progress may mean different things for different communities, and the same is with the idea of good engineering.
To start, the authors offer that thought must come from "the lives of marginalized peoples to create and reflect knowledge that is authentic in the context of these peoples... communities themselves serve as agents of knowledge and an ethic of care requires understanding of a communities' norms about what counts as evidence, which can only be provided by a community itself" (p..8). The authors pose a very crucial standard for socially conscious engineering, that only the community knows what they need and how it should be provided, therefore, extensive efforts should be made to outreach and connect with the community in which engineers will work in to effectively accommodate those communities and ensure the most needed and effective solutions.
I feel this is an important piece to read for all engineers in order to begin to be socially aware of how their work affects the broader public, but as well for ethnic studies scholars to begin to bridge the disconnect of social science and the sciences and engineering.
I really enjoyed reading this piece, and I feel Riley and authors had many well developed points that I feel are crucial to being a socially conscious and careful engineer.
The discussion of the idea that "the problem of women's underrepresentation in engineering indicates deeper more fundamental problems about the nature of the profession and engineering education" (p. 3) poses a really great perspective that has not been brought up yet: the fact that it is deeper underlying issues within the profession and education that causes underrepresentation, instead of the issue itself being women are simply "not interested" in the subject which over simplifies the issue. Riley goes on to say that when the underrepresentation of women is defined narrowly as a problem in itself, equally narrow solutions, ones that don't adequately address the issue, are created (p.3) and argues that we must take a deeper look at the structure of the profession instead of asking repetitive questions such as "where are the women?" and "why so few?" (p. 3).
Another aspect that intrigued me was the discussion of intersectionality and how it is important to address these issues within the engineering profession and education rather than simply looking at race and gender individually (p. 4). Although I agree with the authors because only identifying and analyzing one form of oppression when trying to solve an issue is counterproductive and often times perpetuates these forms of oppression onto one another, I feel it would be very difficult to address the idea of multiple forms of oppression and intersectionality within the engineering workplace and it may backfire. This is because the idea and concept of intersectionality is one that we all deal with, but it is not something that is easily defined, identifiable and understood to the point where it could be adequately addressed in a setting where this is not a focus. This idea of intersectionality is extremely complex not only because it confronts different forms of oppression (gender, class, race, sexuality, etc.) but because it confronts hierarchies that exist within individual companies, the profession itself, and education and may conflict with the values that those companies have. Because of these issues, it may be hard for a company who has many clients and deadlines to effectively address deeply rooted factors causing inequalities, unless, like the authors say, implemented within education, but carefully and with just as much emphasis as engineering curriculum.
Finally, the issues of the definitions of progress for different communities was addressed as well. The author's gave the example that most of the work the work women do is simply ignored, for example, low-tech but high-impact solutions (such as inexpensive water filtration systems for 3rd world countries) are dismissed and not considered acceptable engineering (p. 7). The authors go on to explain that educators focus on high-tech engineering in "first-world" rather than focusing on solving problems experienced by women and people in poverty (p. 7). This puts into perspective the reappearing questions of "What is good engineering?" and "What is progress?" Offering the idea that progress may mean different things for different communities, and the same is with the idea of good engineering.
To start, the authors offer that thought must come from "the lives of marginalized peoples to create and reflect knowledge that is authentic in the context of these peoples... communities themselves serve as agents of knowledge and an ethic of care requires understanding of a communities' norms about what counts as evidence, which can only be provided by a community itself" (p..8). The authors pose a very crucial standard for socially conscious engineering, that only the community knows what they need and how it should be provided, therefore, extensive efforts should be made to outreach and connect with the community in which engineers will work in to effectively accommodate those communities and ensure the most needed and effective solutions.
I feel this is an important piece to read for all engineers in order to begin to be socially aware of how their work affects the broader public, but as well for ethnic studies scholars to begin to bridge the disconnect of social science and the sciences and engineering.
Engineering for the Sake of Engineering
Why do we build? Why do we engineer projects that alter the beauty and brilliance of nature? Nature, that which has provided the bosom from which humanity has suckled for eons. We do it in the name of progress. But what is progress? Does progress mean increasing the ease in which humanity lives their lives? This definition may hold true in many cases, but not in all. Where the Pyramids at Giza progress? Was the Great Wall of China progress? Was the White Sea Canal progress? At what point do the price paid in human lives and the cost to the environment keep progress from being defined as such? At which point do historians stop to describing these large engineering feats as progress and start defining them as disasters?
Some of the most impressive engineering feats in the world were constructed at great cost to human life and caused irreparable environmental damage. We can think of classically famous events such as the invention of the atomic bomb, Chernobyl, or the draining of the Aerial Sea. Even in the safety conscience world of today, projects such as mineral mining and constructing of roadways have dramatic impacts on human life and migratory patterns of animals. In 2002, China alone had 7,000 deaths from coal mining. I'm showing you this number to showcase the fact that even things we take for granted, such as coal, has very profound effects. While 7,000 deaths is not small number, it pales in comparison to the death toll recorded in some of the engineering projects of the Soviets.
The most striking example of a project that took little regard for human life and environmental impacts in its definition of progress was the White Sea Canal. Built with the intent of allowing sea faring vessels from the White Sea to travel directly to the Baltic Sea, the result was a canal frozen 6 months out of the year that was too shallow for large ships. The project was ordered because it was impressive in size and scope, not because it would save money or make the lives of the people easier. During construction of this monumental engineering project an average of 10,000 people died every month, for a grand total of 200,000 dead workers. No natural disaster in recorded history has had a death toll so high. Was this project considered progress by the families of those people who died?
When does engineering happen for the sake of engineering and not for the sake of progress? It happens when decision makers apply technocratic methods to situations in which local context must be considered. For some, engineering progress personified by machine-line efficiency; this was the case with the Soviet Union. For others it is about craft and design; such as in Great Britain. While both of these are on appropriate ends of the spectrum, what must always be taken into account is the impact of engineering; on both nature and humanity. Progress in engineering is not always bigger and more complex solutions, sometimes the simple answer in a local context is better for everyone.
References:
1. China Reports Fewer Coal Mine Deaths in 2009. Daily News & Analysis. Retrieved from http://www.dnaindia.com/world/report_china-reports-fewer-coal-mine-deaths-in-2009_1347723
2. Graham, Loren. (1993). Ghost of the Executed Engineer.
Reading Reaction #3: How Much is Too Much?
Without any doubt, technology has proved to, literally, save lives. However, what society tends to ignore and not publicly share are the negative impacts a lot of new technologies are causing. In many cases, the invention of new technologies literally costs human lives. As Richard Sclove explained in his article, “Making Technology Democratic,” a huge battle society faces with technological advancements is that it is eliminating social interaction and, therefore, local autonomy. PBS introduces a specific scenario on the banks of the holy Narmada river that will submerge the entire self sustaining farming community that has lived there for centuries. With this, questions that need to be addressed are whether or not a price for human life is even achievable and if social skills are lacking due to social networking. True joy comes from friendships and relationships, but email, Facebook, twitter etc are all gradually taking precedence over meeting a friend for a coffee at the local coffee shop, for example, or in a case like the banks of the Narmada River, friendships are extremely strong due to the fact that the people of the village work together to literally survive (growing food, building shelter). However, proponents of these social networks argue that the sites enable people to keep in touch with many more people, but this raises another question; are the majority of people that communicate via the internet true friends or creating true friendships? If not, can you put a price on true friendship?
Proponents of the dam project will argue that, although an estimated 300,000 people will have to choose whether or not they want to flee or drown, it “will provide electricity, irrigation, flood control, and drinking water to an estimated 40 million” (PBS). “ ‘The Dammed’ raises important questions about the costs and consequences of modernization and development, as the global community re-evaluates the social and environmental impacts of large dam projects” (PBS (2003). The Damned overview).
Richard Sclove lends good advice for the kind of technology society should aim for. He explains the importance of having “relative local economic self-reliance.” And suggests “avoid(ing) technologies that promote dependency and loss of local autonomy” (Sclove 92). If technology could be better monitored, future generations would be in much better hands. Today, the technology craze and excitement over new discoveries has caused people to not even consider the negative impacts the new inventions could or are already having. The level technology has reached today is immeasurable, therefore, if it was monitored it is safe to claim that the effects of technology would almost always be positive. Unfortunately, with the technology race out of control today, the negative impacts on the environment and actual human interaction is installing future problems that society will need new technologies to fix; the beginning of a viscous cycle.
If new technologies are invented around the idea of “avoiding dependency,” the effects of new technology would naturally be effecting his or her community directly and, therefore, push he or she responsible for inventing the new technology to seriously think about what the effects would be, both positive and negative, before actually creating it.
Works Cited
Sclove, Richard. Resisting the Virtual Life;Making Technology Democratic pgs 85-101. San Francisco: City Lights, 1995.
Wide Angle; PBS. The Damned. 18 September. 2003. 8 March 2011
Reading Reaction #3: Thinking Into the Future
It is always great to think about improving what is here and now but it is also extremely beneficial to be thinking about what is going to happen later on in the future as well. In the National Academy of Engineering (2004), the authors use the knowledge of what is known now about engineering and what engineering is currently constructed as to creating a goal to reshape engineering as they best see fit. Their major goals to succeed by 2020 include: valuing and understanding engineering education more, make engineers more historical and socially aware of the world’s challenges, push engineers towards leadership opportunities, and increase the diversity in recruitment and retention. From and Ethnic Studies viewpoint, I believe that they do cover two fundamentals of improving engineering education which is: in diversity and to become a “global engineer”. They state that it is important to “ethically assist the world in creating a balance in the standards of living for developing and developed countries alike” (National Academy of Engineering (2004), p. 51). I find this important because we need to focus on the good for all people rather than just looking out for ourselves. Plus, it is important to increase diversity, whether it be race, gender, socio-economic status, etc. With diverse engineers can come great ideas and innovation and potentially create different viewpoints in looking at certain aspects of engineering.
But after reading Hess’s piece, I am conflicted in believing whether all of this is possible. He points out that there is institutionalized racism and discrimination for women and people of color with the glass ceiling. He also discusses the importance of providing a more diverse staff to “provide diverse role models for the students” (Hess 252). Beyond that I also wonder if it would be better to hire younger professors who have had experiences with a slightly more diverse group of engineers or diverse undergraduate program rather than retain older professors who most likely only had most, if not all, White males in their undergraduate program. From interviewing a woman of color in engineering, I have learned this to be true. She stated that the younger professors were more engaged with students and more willing to help rather the older professors who tend to maintain a distance to her (this may not be true for all professors but for some). I think this may help create a more comfortable atmosphere by having a new generation of staff coming in who may have new goals in mind.
I believe that the goal of diversifying engineering is a great goal, but I really doubt that it will become diverse in 2020. I believe we are still far away in creating equality and equal opportunities, like in recruitment. We see this in Cal Poly where most of the students are from good high schools and from higher income homes, which do provide more opportunities and courses (such as AP courses) to excel. I do not know when this goal will actually be achieve, but I do have hope that we are progressing by focusing more on this problem and trying to do something about it.
Works Cited:
National Academy of Engineering (2004), “Chapter 3: Aspirations for the Engineer of 2020” (pp. 47-52) (in The Engineer of 2020: Visions of Engineering in the New Century).
Hess (1995), “Conclusions: Science, Technology & Multicultural Education”.
Technology = Progress?
In the article “Does Improved Technology Mean Progress?” Marx’s argument appears to be that yes, technology can lead to progress but an important question he poses is that where will this progress lead to? . The article focuses on the evolution of technology and how it was used to propel the people in the revolution and how it’s separation from social change. For this response, I want to focus on the question Marx poses at the end. I found it to be interesting because it appears to always be the assumption that if a country or a group of people are not up to par with technology then they are not progressive. However, this article provides an opportunity to question what is advancement and to think outside the box.
I am not implying that technology is bad but the assumption that technology in general is progress and that “… the rest will take care of it self” (pg 8) is something to be looked at. I thought it was a great a opportunity to look at today and see where technology has brought us. What is progressive? I want to look into something we al use in everyday life, something that probably every single person has is a cell phone. I personally am not attached to my telephone; I leave it everywhere. However, I, like almost everyone in class, know a person or persons who are forever tied to their telephone. So something that I notice, is when my friends and I are out eating , everything’s good for a while. Everyone’s talking and joking around. Then, it only takes one person to just check their phone and pretty soon everyone’s checking their phone. And then our conversations revolves around whom texted who what, what someone posted on facebook etc. Telephones have changed the way people socialize. I am not saying cell phones are bad but to be aware how it has changed or lives is interesting to me. Cell phone are important, my parents stress to me how I need to carry my phone and have the ability to make an emergency call, if an occasion should arise. But every year there is always something new coming out. Everything made simpler and easier are the ads for these new telephones. I don’t know how many IPhones have come out.
Something else, conversations can get awkward. We can all be talking in a group and laughing and then, someone gets a text and begins a furious conversation with the person on the other line. A word was created for this, which I learned my freshman year of college, it is called cupcaking. This is an example where technology affects how we live and the new terms that arise from new occasions that have been created by technology. I used a simple example but if a small device such as a cell phone can impact society this much, a larger technological advancement can affect more. So building on the idea that “…the rest will take care of itself” is that it’s not that it will take care of itself, rather it will adjust and the adjustment is not measurable. I thought this article was great opportunity to step out of the box, the idea that technology equals progress and look in. So judging a country or a group of people by their technological progress is questionable if we cannot look at ourselves and see what technology has actually advanced and changed. I just used the cell phone as an example.
I am not implying that technology is bad but the assumption that technology in general is progress and that “… the rest will take care of it self” (pg 8) is something to be looked at. I thought it was a great a opportunity to look at today and see where technology has brought us. What is progressive? I want to look into something we al use in everyday life, something that probably every single person has is a cell phone. I personally am not attached to my telephone; I leave it everywhere. However, I, like almost everyone in class, know a person or persons who are forever tied to their telephone. So something that I notice, is when my friends and I are out eating , everything’s good for a while. Everyone’s talking and joking around. Then, it only takes one person to just check their phone and pretty soon everyone’s checking their phone. And then our conversations revolves around whom texted who what, what someone posted on facebook etc. Telephones have changed the way people socialize. I am not saying cell phones are bad but to be aware how it has changed or lives is interesting to me. Cell phone are important, my parents stress to me how I need to carry my phone and have the ability to make an emergency call, if an occasion should arise. But every year there is always something new coming out. Everything made simpler and easier are the ads for these new telephones. I don’t know how many IPhones have come out.
Something else, conversations can get awkward. We can all be talking in a group and laughing and then, someone gets a text and begins a furious conversation with the person on the other line. A word was created for this, which I learned my freshman year of college, it is called cupcaking. This is an example where technology affects how we live and the new terms that arise from new occasions that have been created by technology. I used a simple example but if a small device such as a cell phone can impact society this much, a larger technological advancement can affect more. So building on the idea that “…the rest will take care of itself” is that it’s not that it will take care of itself, rather it will adjust and the adjustment is not measurable. I thought this article was great opportunity to step out of the box, the idea that technology equals progress and look in. So judging a country or a group of people by their technological progress is questionable if we cannot look at ourselves and see what technology has actually advanced and changed. I just used the cell phone as an example.
A New Angle Reading Reaction #3
So much research, time and effort has led us to see the flaws in the education and institutions of science and technology in our society (not to single out scientific institutions because all institutions have there flaws). Women and people of color get lost in the STEM pipeline, engineering fields are designated male intellectual zones and Western methods of engineering education and practice dominate the field. Yes, we see the statistics and recognize the situation and are left wondering, "What now?"
However, there are pinpoints of light in the field of science, technology and society, because people are taking action to make a change. In the article, "Conclusions: Science, Technology and Multicultural Education," Hess examines practical ways to incorporate women and people of color into the institutions of science and technology. First Hess establishes that science and technology are not "socially" neutral forces impenetrable to change, but they can be affected and changed by the society which constructs them. Hess makes the point that "when the social body is diversified the content of science and technology changes as well as well as its communication and social structures." This belief opens up our minds to engage in different methods of doing engineering, or science. And if the model is "reconstructable" there is a way to include women and people of color instead of permitting their exclusion or trying to fit them into an already established mold.
One strategy is to incorporate social sciences and humanities with engineering. Is Hess saying, that we ought to construct classes in universities that combine engineering processes and learning with a broader multicultural perspective that also includes how science and technology affect society? Hmm what would be an appropriate title for a class such as this...perhaps Global Engineering? Yes! How exciting is it that our participation in this class allows us to engage in this new dialogue that includes engineering with a multicultural perspective?! It is true however that this class has a much stronger focus on societal implications of engineering than the engineering processes themselves, but still it is implementing the technique of incorporation.
In another article entitled, "A New Era," Loftus gives us an example of the Smith Picker Engineering Program that has embraced this multiculturalism and found that their presentation of engineering materials appeals to women. For example in a class entitled, "Continum Mechanics I" students study statistics and dynamics while including case studies such as the earthquake in Mexico in its historical and social context. The teacher explains that one learns better when the information is in context. And it appears that this learning style is much more appealing to women because it incorporates the interpersonal and relatable information that gives life to the stark presentation of math. Sue Rosser, dean of the liberal arts college of Georgia Institute of Technology, found that "research has shown that girls can solve an engineering problem as quickly as boys when it is embedded in a social context."
These techniques are a result of practical implementation of the information that has been gathering about women and people of color in STEM fields. First we have identified that it is possible to view science and technology through a new lens. Since science, technology and society influence one another, as society changes, the production of scientific and technical processes can change as well.
However, there are pinpoints of light in the field of science, technology and society, because people are taking action to make a change. In the article, "Conclusions: Science, Technology and Multicultural Education," Hess examines practical ways to incorporate women and people of color into the institutions of science and technology. First Hess establishes that science and technology are not "socially" neutral forces impenetrable to change, but they can be affected and changed by the society which constructs them. Hess makes the point that "when the social body is diversified the content of science and technology changes as well as well as its communication and social structures." This belief opens up our minds to engage in different methods of doing engineering, or science. And if the model is "reconstructable" there is a way to include women and people of color instead of permitting their exclusion or trying to fit them into an already established mold.
One strategy is to incorporate social sciences and humanities with engineering. Is Hess saying, that we ought to construct classes in universities that combine engineering processes and learning with a broader multicultural perspective that also includes how science and technology affect society? Hmm what would be an appropriate title for a class such as this...perhaps Global Engineering? Yes! How exciting is it that our participation in this class allows us to engage in this new dialogue that includes engineering with a multicultural perspective?! It is true however that this class has a much stronger focus on societal implications of engineering than the engineering processes themselves, but still it is implementing the technique of incorporation.
In another article entitled, "A New Era," Loftus gives us an example of the Smith Picker Engineering Program that has embraced this multiculturalism and found that their presentation of engineering materials appeals to women. For example in a class entitled, "Continum Mechanics I" students study statistics and dynamics while including case studies such as the earthquake in Mexico in its historical and social context. The teacher explains that one learns better when the information is in context. And it appears that this learning style is much more appealing to women because it incorporates the interpersonal and relatable information that gives life to the stark presentation of math. Sue Rosser, dean of the liberal arts college of Georgia Institute of Technology, found that "research has shown that girls can solve an engineering problem as quickly as boys when it is embedded in a social context."
These techniques are a result of practical implementation of the information that has been gathering about women and people of color in STEM fields. First we have identified that it is possible to view science and technology through a new lens. Since science, technology and society influence one another, as society changes, the production of scientific and technical processes can change as well.
Monday, March 7, 2011
Reading Response #2-- Hierarchies in STEM
Reading Response #2
Mariel Emanuel
ES:410
In the piece “Don’t Ask Don’t Tell” authors Bilimoria & Stewart discuss some of the experiences of members of the LGBT community in STEM fields. I think this piece is very interesting because it highlights some of the consequences of lack of diversity within STEM fields. In the study they found that queers students generally “felt invisible both in science contexts and in queer discourses (which often ignore science)” (Bilimoria & Stewart). This is an interesting case that deserves to be looked at because it demonstrates how the lack of intersection of diverse discourses is creating hierarchies of information and affecting the STEM knowledge being produced.
Throughout the formation of STEM fields certain types of knowledge have been prioritized and valued over others. In turn we see the subtle implementation of hierarchies within the STEM fields. This is a problem because not surprisingly the STEM perspective is usually viewed as more important than the humanitarian perspective within the STEM paradigm. This ranking of knowledge is negatively affecting the information/products being produced because it is inevitably separating one type of knowledge from the other when in fact the most beneficial way to approach issues would involve the implementation of an assortment of perspectives.
Our society far too often views human as separate from technology when in reality the two are completely interconnected and the two perspectives should never be evaluated without the other alongside. Same idea applies to the separation of STEM fields from humanities. Putting the two at odds with each other furthers hierarchies and hinders citizens from recognizing the connection between the two fields.
In Faulkner’s piece she calls out STEM for fields for adopting dualisms and hierarchies. I think that this is very interesting because it is the implementation of these dualisms and hierarchies that puts technology at odds with the human and STEM at odds with the Humanities. I enjoyed Faulkner’s articles very much because she is very critical of the role of gender in STEM fields. It is so important to look at the intrinsic qualities that get attached to engineers based on their gender because this highlights some of the innate biases within the field. Since STEM work was created under a patriarchal framework the perspective of the woman has time after time been neglected. Even though we have made huge strides towards increasingly gender equality in STEM fields—the foundation of STEM was built upon dualisms and hierarchies which still subtly linger.
The remnants of patriarchy that still remain in the field are evidently part of the reason why members of the LGBT community felt that there unique perspective was “invisible”. This feeling of neglect is a direct consequence of the lack of diversity in engineering which only facilitates the continual perpetuation of hierarchies. In my opinion in order to successfully confront the current problems with diversity and STEM fields we must tackle the biases inherent within the foundation of the field first.
In order to successfully confront these inherent biases we must focus on how to increase diversity within the field and how to create an atmosphere in which various/diverse perspectives can peacefully co-exist without one being valued over the other. Issues of race and gender cannot be ignored and must taken into consideration when creating new scientific knowledge.
Fashionable Progress
I like change. I like getting rid of stuff and clutter. I try not to have stuff and clutter in the first place, but it just accumulates like dust. I had never considered this may be part of a governmental pan to increase spending and national morale. I never thought my love for shopping was something that I was provoked to enjoy by my society.
After watching “The Story of Stuff” (http://www.storyofstuff.com/) This quote from “retail analysis” Victor Lebow after World War II from the “Story of Stuff” left me gawking at the screen: “our enormously productive economy. . . demands that we make consumption our way of life, that we convert the buying and use of goods into rituals, that we seek our spiritual satisfaction, our ego satisfaction, in consumption. . . we need things consumed, burned up, replaced and discarded at an ever-accelerated rate”.
I see this in the world around me.
I also think this coincides with L. Marx’s (1987), “Does improved technology mean progress?”. Why are we, as a society, so consumed by consumerism? The NEED for progress, and the need to buy the new compliment each other. We need to ask ourselves WHY : ”when the introduction of some new labor-saving technology is proposed, it is useful to ask what the purpose of this new technology is. Only by questioning the assumption that innovation represents progress can we being to judge its worth” (Marx, 11).
I was particularly hurt with Annie Leonard’s theory of fashion. She asserted that the flux of styles: when skinny heels are in and chunky heels are out and when chunky heels are in and skinny heels are out, is a sure way to know who is IN and who is OUT. The progression of styles and NEW.
But this is not necessarily fashion-- the way people choose to style themselves with clothing-- but more a reflection of the economic system where it is possible to make money off of clothing by trying to get everyone to want the latest, greatest, newest shirt, short and shoes.
However, this severely thrashes what style is all about. Style is about wearing chunky heels, even if they are out. The person who wears skinny heels just because they are in is not fashionable at all.
Vintage is in. Flea market finds and garage sell digs are fiend by many a fashion bloggers and aspiring fashionistas. This promotes recycling-- it is cool to say you found something truly unique at the Goodwill.
But companies are getting wise to this shift and trying to sell garments that look washed and worn but only because of the factory process it went through.
Perhaps, if everyone was concerned with defining his or her own style, we could help the world and reduce mindless consumerism.
I guess this is still buying but maybe in a better way.
We all make decisions about what we wear every single day. Even thinking that you don’t care what you wear and just put on whatever, is an example of how you choose to show yourself to the world.
A way to decrease the wastefulness and overwhelmingness of trying to keep up with a trend is by focusing more on our individuality and try to find ways to express this in the most unique way possible. Individuals need to define their own trends.
So then, instead of going to the closest big brand store that churns out the same “unique” shirt-- people may find themselves looking for clothes that were once worn in another time and place.
Stuff is the byproduct of progress.
Ever Changing Viewpoints. Reading Reaction #3
One thing I found very interesting in the article Educating the Engineer of 2020, was the thought about a Bachelor’s of Science in Engineering being considered an “‘engineer in training’ degree” and the Master of Science would be a “professional” degree in engineering. This is interesting to read in a structured plan for what Engineering Education should become because as we have seen in many of the articles over the quarter, as we go up in the education-hierarchy system, we see fewer women and people of color in the educational track for higher learning in the sciences, and it is those degrees that will elevate people to achieve ‘professional’ status. Without these Masters degrees, this large group of people is again being marginalized, even though they were able to achieve a Bachelors’ of Science. As Hess notes in the concluding notes of the Chapter 9 titled Conclusions: Science, Technology, and Multicultural Education,
“postsecondary science and technology education is an important pressure point because it is a gatekeeper to many highly paid professions. As I have shown in this book, science and technology are also sites for the reproduction of an ideology that values some groups and cultures over others” (Hess, page 3).
On another focus of the readings, one thing that has recently been bothering me about some of the engineering students in the program here at Cal Poly is the resistance to general education. The classes are seen as a ‘waste of time’ and classes that won’t actually affect their lives. However, we see that in the article The Engineer of 2020, “It is appropriate that engineers are educated to understand and appreciate history, philosophy, culture, and the arts, along with the creative elements of all of these disciplines”(Chapter 3: Aspirations for the Engineer of 2020, The Engineer of 2010). This idea is drastically different from the mindset of what many people believe will help them at the present, and the classes graduating in the five years before and after this graduation year will be considered the ‘Engineers of 2020’—who many of which do not appreciate these fields of study. After studying what some of the original and most influential philosophers thought of life and the sciences, it is interesting to see the change from the high value of a well rounded, knowledgeable person, to the focus of how good you are at seeing the problem and solving it in the most efficient manner. The origins of the basis of the science and mathematical systems we use today were produced by people who were highly knowledgeable of many different aspects of education- they were often collectively philosophers, physicists, mathematicians, scientists, and inventors. Typically the people who are considered most influential today are those that are highly specialized in one particular subject. Hess also touches on this need in the article published in 1995, stating that:
“an initial strategy is to begin to think about integrating a social science or humanities requirement into the science and engineering major in a manner that goes beyond standard distribution requirements to take a certain number of humanities and social science courses. For example, majors in technical fields could be required to take a course on the historical, social, cultural, or ethical aspects of biology, engineering, or one of the sciences” (Hess, page 3).
The ideas that engineering can improve life is a great driving force for why I am still involved in the field, and every day I see ways, that eventually with my training, I will change lives. I think that the article The Engineer of 2020 has a number of inspiring ambitions for the world and for engineering’s place in society. As it says,
“Engineering, through its role in the creation and implementation of technology, has been a key force in the improvement of our economic well-being, health, and quality of life. Three hundred years ago the average life span was 37 years, the primary effort of the majority of humans was focused on provisioning their tables, and the threat of sudden demise due to disease was a lurking reality (Kagan et al., 2001). Today, human life expectancy is approaching 80 years in many parts of the world as fundamental advances in medicine and technology have greatly suppressed the occurrence of and mortality rates for previously fatal diseases and the efforts of humankind are focused largely on enhanced quality of life (Central Intelligence Agency, 2001)” (Chapter 3: Aspirations for the Engineer of 2020, The Engineer of 2020).
This excerpt alone speaks to the wonders that engineering provides for a society, and it refreshes and reminds us of the human aspect and impact engineering has. I like the thought that things will get better, and though we always have to keep in mind the ideas for the need of better, more well rounded, outside the box ideas, we know that we are slowly getting there.
“postsecondary science and technology education is an important pressure point because it is a gatekeeper to many highly paid professions. As I have shown in this book, science and technology are also sites for the reproduction of an ideology that values some groups and cultures over others” (Hess, page 3).
On another focus of the readings, one thing that has recently been bothering me about some of the engineering students in the program here at Cal Poly is the resistance to general education. The classes are seen as a ‘waste of time’ and classes that won’t actually affect their lives. However, we see that in the article The Engineer of 2020, “It is appropriate that engineers are educated to understand and appreciate history, philosophy, culture, and the arts, along with the creative elements of all of these disciplines”(Chapter 3: Aspirations for the Engineer of 2020, The Engineer of 2010). This idea is drastically different from the mindset of what many people believe will help them at the present, and the classes graduating in the five years before and after this graduation year will be considered the ‘Engineers of 2020’—who many of which do not appreciate these fields of study. After studying what some of the original and most influential philosophers thought of life and the sciences, it is interesting to see the change from the high value of a well rounded, knowledgeable person, to the focus of how good you are at seeing the problem and solving it in the most efficient manner. The origins of the basis of the science and mathematical systems we use today were produced by people who were highly knowledgeable of many different aspects of education- they were often collectively philosophers, physicists, mathematicians, scientists, and inventors. Typically the people who are considered most influential today are those that are highly specialized in one particular subject. Hess also touches on this need in the article published in 1995, stating that:
“an initial strategy is to begin to think about integrating a social science or humanities requirement into the science and engineering major in a manner that goes beyond standard distribution requirements to take a certain number of humanities and social science courses. For example, majors in technical fields could be required to take a course on the historical, social, cultural, or ethical aspects of biology, engineering, or one of the sciences” (Hess, page 3).
The ideas that engineering can improve life is a great driving force for why I am still involved in the field, and every day I see ways, that eventually with my training, I will change lives. I think that the article The Engineer of 2020 has a number of inspiring ambitions for the world and for engineering’s place in society. As it says,
“Engineering, through its role in the creation and implementation of technology, has been a key force in the improvement of our economic well-being, health, and quality of life. Three hundred years ago the average life span was 37 years, the primary effort of the majority of humans was focused on provisioning their tables, and the threat of sudden demise due to disease was a lurking reality (Kagan et al., 2001). Today, human life expectancy is approaching 80 years in many parts of the world as fundamental advances in medicine and technology have greatly suppressed the occurrence of and mortality rates for previously fatal diseases and the efforts of humankind are focused largely on enhanced quality of life (Central Intelligence Agency, 2001)” (Chapter 3: Aspirations for the Engineer of 2020, The Engineer of 2020).
This excerpt alone speaks to the wonders that engineering provides for a society, and it refreshes and reminds us of the human aspect and impact engineering has. I like the thought that things will get better, and though we always have to keep in mind the ideas for the need of better, more well rounded, outside the box ideas, we know that we are slowly getting there.
Soviet Education and EWB-USA
Throughout this course, I find myself very interested in the engineering education of other countries. As an engineering in the United States, I wonder how alike or how different my education is from, say, a Soviet engineer in the mid 1900s (approximately 1930-1965). The U.S. curriculum allows for specialization, but it also heavily targets broad categories, such as the humanities. To me, it is perfectly clear why Soviet engineers lacked the innovation to move their country forward in technological advancements. In the Ghost of the Executed Engineering, chapter 4, the author makes a bold statement that resonates and directly correlates with the fall of the soviet union: “..engineering students in the Soviet Union received a stunted and narrow education; it was intellectually impoverish, politically tendentious, socially unaware, and ethically lame”. This brings now to the concept of technocracy, where over half of the political leaders had received an engineering education. When I think of a politician, and thought is heavily influenced by the fact that I live in the U.S., I think of a well-rounded individual who could have a technical background, but above all, is knowledgeable in the different forms of government. The Soviet Union engineers received a grand total of three courses outside their specified technology, and these three courses were all based on communist theory. Even the course labeled as political economy only focus on one specific form of economy, communist! How then did the Soviet Union expect for growth when their brightest minds were enclosed to such a narrow curriculum? We see the disaster of Chernobyl, not because these engineers were incapable of noticing such a danger, but because they were never taught basic environmental engineering issues and human factors, especially in the category of safety, that could have prevented such a disaster.
After reading about these engineers, it is obvious that organizations such as EWB-USA need to be in place. Aside from these engineers using their extensive engineering knowledge, they are practicing all the other courses and practices they learn when becoming an engineer in the U.S. Although some engineers hate to admit it, it is crucial for our education to take courses like political economy, public speaking, and ethnic studies, even if it means we spend less time in our engineering courses. I agree that not every engineer will work in such an organization like EWB, but I’m sure each engineer will be faced with at least one instance when the knowledge learned in the non-engineering courses might be handy. EWB’s vision is “a world in which the communities we serve have the capacity to sustainably meet their basic human needs, and that our members have enriched global perspectives through the innovative professional educational opportunities that the EWB-USA program provides”. In this vision, I see the key words ‘global perspectives’, which most engineers would not consider as part of their engineering education, yet it is so crucial to obtain such perspectives. We have read about engineers that did not have these opportunities, whose education was so narrow they were not called mechanical engineers. Instead, they were called ‘ball bearing for paper mills engineers’. It is without say that as engineers who want to make a difference, we must focus on the outside courses with such vigor as we do with our engineering courses. This is why I think organizations such as EWB-USA encompass true engineers at its finest.
Engineers Without Borders, http://www.ewb-usa.org/
Graham, Loren. The Ghost of the Executed Engineer. Chapter 4: Technocracy, Soviet Style
After reading about these engineers, it is obvious that organizations such as EWB-USA need to be in place. Aside from these engineers using their extensive engineering knowledge, they are practicing all the other courses and practices they learn when becoming an engineer in the U.S. Although some engineers hate to admit it, it is crucial for our education to take courses like political economy, public speaking, and ethnic studies, even if it means we spend less time in our engineering courses. I agree that not every engineer will work in such an organization like EWB, but I’m sure each engineer will be faced with at least one instance when the knowledge learned in the non-engineering courses might be handy. EWB’s vision is “a world in which the communities we serve have the capacity to sustainably meet their basic human needs, and that our members have enriched global perspectives through the innovative professional educational opportunities that the EWB-USA program provides”. In this vision, I see the key words ‘global perspectives’, which most engineers would not consider as part of their engineering education, yet it is so crucial to obtain such perspectives. We have read about engineers that did not have these opportunities, whose education was so narrow they were not called mechanical engineers. Instead, they were called ‘ball bearing for paper mills engineers’. It is without say that as engineers who want to make a difference, we must focus on the outside courses with such vigor as we do with our engineering courses. This is why I think organizations such as EWB-USA encompass true engineers at its finest.
Engineers Without Borders, http://www.ewb-usa.org/
Graham, Loren. The Ghost of the Executed Engineer. Chapter 4: Technocracy, Soviet Style
Sunday, March 6, 2011
Increasing Our Outreach To Society
Although many programs and steps are being taken to better our society through engineering, I am prompted to question whether engineers are directly asking communities what they need and would what better their lives. I feel as though their is a invisible barrier between people of society and engineers. Time after time I have heard of many engineering projects that fall short of what the population is really in need of. In the last decade new engineering programs are being created in order to change this problem and make a better outreach to society. Even though these programs are the newest invention of outreach to those in need, there are some flaws that could be changed that I would like to bring attention to.
Servicing the community during college courses in the United States has become one of the new ways to make the outreach. Schools are now expecting “for students not only to have a background in mathematics and science but also to have the skills to effectively communicate in a group and work with colleagues from across academic disciplines.”(Selingo) These high expectations push students to become more of a well rounded person that can coexist and serve society better than other engineers have been able to. Its great to here of the steps being put into place to better our engineers, yet the extent to which they communicate with society is questionable. Are we able to trust and hold these engineers accountable for communicating directly with our community? In order to make the change that we need for society to function in a way that is most convenient, engineers need to take action in surveys and questioners within our cities in order to find out what the people believe we need most. Our way of life could dramatically change if we the people begin making the decisions that our local cities carry out in our regional planning.
Engineers Without Borders is one of the closest programs that Cal Poly has put into place that amounts to the EPIC program that many campuses such as Purdue have engaged in. Along with EPIC, Engineering Without Borders teaches its students to better serve the community by “creating a more stable and prosperous world by addressing people's basic human needs by providing necessities such as clean water, power, sanitation and education.”(Engineers) This is a great program that is able to make an outreach to communities with help across the world. There are many positive attributes to this program, yet I feel that there are all some downsides. Engineering Without Borders is a only a club on campus, which I feel only allows its potential to be partially reached. I believe that the goals which push this club to make change would better serve the community if it were put into a curriculum for classroom credit. Our school would be better serving communities around the world if it became a necessity for engineering majors because it would allow students to have a better understanding of communication with society without having to go out of their way to join a club. This course would become one of the first for targeting the increase of help among the community for engineers at Cal Poly.
Engineers Without Borders Website http://www.ewb-usa.org/
Selingo (2006), “May I Help You?” (html), http://www.prism-magazine.org/summer06/feature_service.cf.
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