Teaching Science 2.0

<Cross Posted at Edutopia>

Connecting your students with scientists and engineers is one way to enage them in science. It also provides sudents with mentors and positive role models. National Lab Day is a national inititive and classroom “matchmaker” launched last year to help facilitate these connections. A National Lab Day project can serve as a cornerstone to project-based learning in your classroom.

As you start the new school year, I hope the following interview with Samantha Israel, National Lab Day Coordinator, inspires you and your students to engage in an authentic science project. I would also like to extend a special thanks to NLD’s Lew Esses, Abraham Faham, and Miro Sutton for their assistance with this interview.

EB: Why NLD (and what is it)?

SI: America is falling behind in STEM (science, technology, engineering, and math) education. NLD aims to reverse this downward trend and inspire students in order to increase general science-based literacy, as well as to stay competitive in the global market.

National Lab Day is more than just a day; it is a nationwide initiative to build local communities of support that will foster ongoing collaborations among volunteers, students, and educators. NLD does this primarily through our online platform (www.nationallabday.org) that connects teachers with STEM professionals, community volunteers, and a variety of other resources - all there to support and help teachers strengthen their STEM programs.

National Lab Day is not just about “labs” as we normally think of them – cookie cutter labs are a major part of the decline in STEM interest. NLD promotes a hands-on learning approach to STEM learning. It is about kids building robots and bridges and learning physics and engineering in those projects; kids testing the water in their schools and the local streams and learning chemistry and biology in the process. Real life application to STEM subjects is essential in stimulating interest.

We encourage teachers to consider hands-on learning projects for their classrooms, and to use our site to connect these projects with local professionals who would like work with them to see the projects come to fruition.

National Lab Day, the day itself, is a capstone day to celebrate the yearlong efforts and collaborations between students, teachers, STEM professionals and community volunteers - all supporting and pursuing fun hands-on learning. National Lab Day was celebrated this year on May 12th, 2010 (for pictures and video from the first annual NLD please see www.nationallabday.org). We will continue to celebrate NLD each year in May.

EB: How does NLD work?

SI: NLD is the ultimate educational matchmaker - think of it as the e-Harmony of STEM education. Teachers can post projects on our website (www.nationallabday.org) that they think would benefit from the help of a STEM professional or community volunteer. Our site will then automatically provide suggestions of local professionals or volunteers who have created accounts on NLD and may be able to help. Teachers can then message suggested “matches” in order to follow up and make an arrangement to work together. Likewise, our system also presents STEM professionals and community volunteers with suggestions for projects they may be able to help with. They too can then message teachers responsible for projects they are interested in, and offer to assist.

Aside from using the automatically generated match suggestions that our system provides, teachers can manually search for their own matches by keyword, state, and location in the “community” tab at nationallabday.org/scientists. STEM professionals can also browse and search all projects in the “projects” tab at nationallabday.org/projects/live.

NLD also features an organization portal to further help teachers and projects. Organizations can post resources, host events, and adopt projects (to help galvanize activity and strengthen results). These organizations are provided with a customizable “MyNLD” page (including a unique co-branded URL) that allows them to showcase all of the work their organization has done to strengthen STEM learning. For a great example of an organization MyNLD page please visit http://my.nationallabday.org/OSLN.

Lastly, teachers can also request financial support for their projects on NLD. This is enabled by our partnership with Donors Choose (www.donorschoose.org).

EB: What is the difference between the “NLD event” in May and what happens during the rest of the year?

SI: As mentioned above, the National Lab Day “Event” simply celebrates all of the work that is ongoing throughout the year, and it also encourages future involvement in our initiative. However, at any time during the year a teacher can post and complete a project through our website.

EB: NLD has been in place for 7-8 months now, what would you say are some of your biggest successes?

SI: In the few months since President Obama launched NLD, thousands of teachers have joined the NLD community and have posted over 1,800 projects. More than 3,500 STEM-based professionals and volunteers have joined the NLD community to date. These individuals are ready to support teachers as well as students in their communities. For example, in the Fort Bend Independent School District 70,000+ students participated in National Lab Day. There are over 200 professional organizations, companies, and foundations that have joined the NLD effort, with a combined membership of over 6 million.

To view some of the press we have received please visit: www.nationallabday.org/press.

EB: What do you hope to see during the 2010-2011 school year?

SI: In the upcoming year, National Lab Day will build on our current success. We want to see the same activity we witnessed last year, but on a larger scale. Our goal is for NLD to continue to expand and become an everyday learning resource. We will also be working on a series of improvements internally on our website to make it an increasingly useful tool for our users.

EB: One of Edutopia’s “core concepts” is to promote project-based learning opportunities. How do you see NLD supporting this approach to teaching?

SI: Project based learning is the heart of the NLD program. In the U.S., STEM education is very textbook-centric. This is problematic in that it can lead to significant disconnect between STEM subjects and real world application. Teachers often want to teach these subjects more dynamically, but many lack the tools or experience to do so.

There are numerous STEM professionals out there who are ready and willing to help spread their knowledge and expertise - all that is needed is a network. The core of the NLD program focuses on bringing together professionals that want to help teachers and serve as a resource that can strengthen their various STEM programs.

In April 2009, President Obama made a nationwide request to STEM professionals: “I want to persuade you to spend time in the classroom, talking and showing young people what it is that your work can mean, and what it means to you … [to] encourage young people to be makers of things, not just consumers of things.” NLD’s primary goal is to meet the president’s challenge.

EB: I heard that there was a goal of forging 10,000 scientist - teacher partnerships last year. Can you give a few examples of what some of these partnerships looked like?

SI: For every completed project on the NLD site, at least one scientist-teacher partnership was created. Each scientist-teacher partnership formed through NLD looked different, simply because the NLD program is designed to match the unique and specific needs of teachers and their classrooms. For example, some of the partnerships were in the form of weekly phone calls to provide advice on science fair projects, while others were class visits to help teachers and students learn how to adapt solar energy in their classrooms.

Here is an expanded example of one particular partnership:

From the “Adopt a Class” project, the teacher writes:

“I posted my sophomore physics Alternative Energy Project on National Lab Day in the fall. I was contacted by a mechanical engineer, Mr. G., who lives in the area. He contributed to our project in several ways. He began by giving a presentation to our students about engineering as a career, which was great exposure for those interested in pursuing engineering. His presentation was extremely engaging for the students, and emphasized many different applications of engineering from bridges to energy efficiency to music video production. He left quite a few very helpful alternative energy books and engineering magazines in our library for the duration of the project which students used in their research. He met with student teams to check in about their research and help to identify areas to work on. He also collaborated with the students in an ongoing way on our class blog. Alternative energy is an area I’m just beginning to learn more about, so it was very helpful for all of us to have Mr. G. as a resource. The students presented their research all this week in class, and Mr. G attended all their presentations, gave feedback, and asked questions about their work. He then gave a presentation of his own for the class about energy efficiency and left us with resources we can use to make our school more energy efficient.”

EB: Many current scientists and engineers cite the Apollo program as their inspiration for pursuing STEM careers. What do you think will be the inspiration for the next generation?

SI: Inspiration is what is missing in the science classroom today. Our hope is that the STEM professionals who have been lucky enough to develop a passion for their subject area will become increasingly driven to share this enthusiasm with the next generation. Therefore we seek to encourage scientists and other STEM professionals everywhere to become the inspiration for future generations.

EB: How can one get involved in NLD?

SI: Getting involved is easy. Simply go to www.nationallabday.org and click “Join now!” you will be led through a quick sign-up process and have the option to choose your role (teacher, STEM professional, volunteer . . .).

Once an account has been created, users have full access to the site. Teachers are encouraged to post as my projects as they would like, and to use the NLD site to connect with local professionals and community volunteers. The site can also be used to find financial support. STEM professionals and volunteers are encouraged to browse current projects and find teachers looking for help. We encourage our users to actively use our platform, and take advantage of this powerful resource.

As a final note, throughout this interview I have differentiated between STEM professionals and community volunteers. The reason for this is that we encourage community members who do not necessarily feel confident referring to themselves as STEM professionals, but still have an interest in supporting STEM learning, to play a role in our initiative. Community volunteers can provide an extra set of hands on a fieldtrip, or help judge a science fair, and much more.

The bottom line: NLD encourages collaboration and excitement towards STEM learning – regardless of your role. If you want to help revive STEM subjects for future generations, join the movement!

On July 12th, the National Academies of Science released a draft of the Framework for New Science Education Standards. The framework consists of seven chapters and almost 200 pages.  It clearly identifies three “dimensions” of science education that must be woven together into standards, instruction and assessment: 1) Disciplinary core ideas in life science, earth and space sciences, physical sciences, and engineering; 2) Cross Cutting Elements including cross-cutting scientific concepts and topics in science, engineering, technology, and society; and 3) scientific and engineering practices.

Learning progressions are central to the framework.  Learning progressions provide a coherent description of how core ideas in science and engineering build throughout K-12.

The framework embraces the mantra, less is more, and states, “Reduction of the sheer sum of details to be mastered give time for students to engage in scientific investigations and argumentation and to achieve depth of understanding of the material that is included.”

For more details on the development of the framework, click here.

I have provided a summary of the framework in three parts.  The first part explores the premises and guiding principles of the framework document.  The second part explores an example learning progression and the core disciplinary ideas presented in “Dimension 1.”  The final part explores dimensions 2 and 3 and includes an example of a performance expectation for one sub-question of a core idea.

Please add your thoughts to these VoiceThreads!

Part One: Foundations (Make it Big!)

Part Two: Dimension 1 - Disciplinary Core Ideas (Make it Big!)

Part Three: Dimensions 2&3 - Cross-Cutting Elements & Science and Engineering Practices. (Make it Big!)

NOTE: The National Academies of Science has a survey here -available July 14- to submit official feedback

This is a really well researched and written book.  It is also incredibly depressing.  Here is an interview with the author.

Science, Technology, Engineering and Math (STEM) education has gotten a lot of attention in the press over the past few years.  Quite simply, having a well educated and innovative STEM workforce is critical to the economic security and prosperity of the United States. More importantly, a solid STEM education provides all of our children with a strong foundation to “keep the door open” on many opportunities throughout their lives.

I was recently speaking with a CEO of a company that prioritizes hiring of scientists, mathematicians and economists because they are good problem solvers.  They are creative, yet able to analyze data and trends.  He told me that hiring those types of people is a very competitive process - he may only have a few candidates that are also being recruited by other companies.  On the other hand, he adds, when we hire someone with a business background, we might have 50-100 (or more) applicants for a single position.

Payscale, Inc. released a report that ranked undergraduate college degrees by median starting salary and mid-career salary (w/o graduate degree).  Seven of the top 10 majors were in engineering.  The other three (economics, physics and computer science) all require a significant “STEM” background.  In fact, every career in the top 20 (marketing comes in at 21) requires substantial science, technology, engineering and/or mathematics coursework.

Methodology Annual pay for Bachelors graduates without higher degrees. Typical starting graduates have 2 years of experience; mid-career have 15 years. See full methodology for more.

40% of the top 20 majors are engineering majors (50% if you include computer science and construction management/engineering). I am in the process of sifting through survey data that I collected from about 380 ninth grade students regarding their perceptions of engineering as a profession. The one finding that quickly jumped out was that the average 9th grade student could identify just over one type of engineer. How are our students supposed to be prepared for STEM fields if they don’t even know that they exist!

Oh yeah, and why is it abnormal for high schools to actually have engineering courses (except Massachusetts -standards)?  Engineering isn’t an “emerging” profession - it has been around long enough for schools (and policymakers) to have noticed.

If you are interested in putting more engineering into your teaching, check out:

• American Society for Engineering Educatin’s Engineering K12 Center
• PBS Design Squad
• Boston Museum of Science - National Center for Technological Literacy
• Boston Museum of Science - Engineering is Elementary

Science makes the assumption that the natural world can be understood by using evidence from the natural world.  Scientists create explanations for natural phenomena by interpreting evidence.  The stronger the supporting evidence, the better the explanation!

According to the U.S. National Research Council, the following five features are at the core of teaching through science inquiry:

1. Learners are engaged by scientifically oriented questions.
2. Learners give priority to evidence, which allows them to develop and evaluate explanations that address scientifically oriented questions.
3. Learners formulate explanations from evidence to address scientifically oriented questions.
4. Learners evaluate their explanations in light of alternative explanations, particularly those reflecting scientific understanding.
5. Learners communicate and justify their proposed explanations.

At the core of this, is the creation of evidence-based explanations. These explanations should go beyond a simple conclusion that reports data. Students need to be given frequent opportunities to create evidence-based explanations and evaluate explanations to determine if they are supported by evidence.

The following mini case study is an example of how you can focus students on creating evidence-based explanations.  The case study is Inspired by the Student Self-Test for Chapter 1 of Oxford Big Ideas Science  (ISBN 978 0 19 556715 1, Oxford University Press Australia).

Explanations, Evidence, and Cane Toads

An average cane toad can grow to the size of a softball. Adults have poison glands located behind their eyes and tadpoles are highly poisonous to most animals. Females will lay thousands of eggs. Cane toads have a huge appetite and, unlike most toads, will eat both living and dead matter. Cane toads can recognize their food by smell, but most often identifies prey through motion.  Cane toads’ main diets consists of insects, but they also eat small rodents, amphibians, reptiles, small birds, plants, dog food, and household trash.

The cane toad gets its name because it was commonly used to eliminate pests in sugar cane fields.  Although it is originally from Central America and northern parts of South America, the toad was used in the 1800’s and early 1900’s throughout the Carribean and Australia as a way to control beetles and other pests ravaging farmers’ fields.  Since the skin of adult toads are poisonous to many predators in these areas, they are now considered invasive species.

A Sydney University professor and his student, studying captive cane toads, noticed that they exhibited cannibalistic tendencies.  They observed adults wiggling their toes when around young toads. When the young toads hopped towards them, the adults would eat the youth!  Based on these observations, the scientists developed a laboratory investigation. Adult and young toads were separated by clear glass so they could not eat each other (ethical investigation). They observed that the young toads only approached adult toads that wiggled the middle toe on their hind feet.

Task: There is a lot of information (data) in these three paragraphs.  Scientists go beyond simply reporting observations by creating evidence-based explanations for what they are seeing.

1. Summarize the important data from the text.
2. Write an explanation that explains they scientists’ observations.  Make sure you support your explanation with evidence from your data in #1.  Go beyond a simple reporting!

On the anniversary of his death:

“MY PEDAGOGIC CREED”
by John Dewey

ARTICLE I. WHAT EDUCATION IS.

I believe that all education proceeds by the participation of the individual in the social consciousness of the race. This process begins unconsciously almost at birth, and is continually shaping the individual’s powers, saturating his consciousness, forming his habits, training his ideas, and arousing his feelings and emotions. Through this unconscious education the individual gradually comes to share in the intellectual and moral resources which humanity has succeeded in getting together. He becomes an inheritor of the funded capital of civilization. The most formal and technical education in the world cannot safely depart from this general process. It can only organize it; or differentiate it in some particular direction.

I believe that the only true education comes through the stimulation of the child’s powers by the demands of the social situations in which he finds himself. Through these demands he is stimulated to act as a member of a unity, to emerge from his original narrowness of action and feeling and to conceive of himself from the standpoint of the welfare of the group to which he belongs. Through the responses which others make to his own activities he comes to know what these mean in social terms. The value which they have is reflected back into them. For instance, through the response which is made of the child’s instinctive babblings the child comes to know what those babblings mean; they are transformed into articulate language and thus the child is introduced into the consolidated wealth of ideas and emotions which are now summed up in language.

I believe that this educational process has two sides - one psychological and one sociological; and that neither can be subordinated to the other or neglected without evil results following. Of these two sides, the psychological is the basis. The child’s own instincts and powers furnish the material and give the starting point for all education. Save as the efforts of the educator connect with some activity which the child is carrying on his own initiative independent of the educator, education becomes reduced to a pressure from without. It may, indeed, give certain external results but cannot truly be called educative. Without insight into the psychological structure and activities of the individual, the educative process will, therefore, be haphazard and arbitrary. If it chances to coincide with the child’s activity it will get a leverage; if it does not, it will result in friction, or disintegration, or arrest of the child nature.

I believe that knowledge of social conditions, or the present state of civilization, is necessary in order properly to interpret the child’s powers. The child has his own instincts and tendencies, but we do not know what these mean until we can translate them into their social equivalents. We must be able to carry them back into a social past and see them as the inheritance of previous race activities. We must also be able to project them into the future to see what their outcome and end will be. In the illustration just used, it is the ability to see in the child’s babblings the promise and potency of a future intercourse and conversation which enables one to deal in the proper way with that instinct.

I believe that the psychological and social sides are organically related and that education cannot be regarded as a compromise between the two, or a superimposition of one upon the other. We are told that the psychological definition of education is barren and formal - that it gives us only the idea of a development of all the metal powers without giving us any idea of the use to which these powers are put. On the other hand, it is urged that the social definition of education, as getting adjusted to civilization, makes of it a forced and external process, and results in subordinating the freedom of the individual to a preconceived social and political status.

I believe each of these objections is true when urged against one side isolated from the other. In order to know what a power really is we must know what its end, use, or function is; and this we cannot know save as we conceive of the individual as active in social relationships. But, on the other hand, the only possible adjustment which we can give to the child under existing conditions, is that which arises through putting him in complete possession of all his powers. With the advent of democracy and modern industrial conditions, it is impossible to foretell definitely just what civilization will be twenty years from now. Hence it is impossible to prepare the child for any precise set of conditions. To prepare him for the future life means to give him command of himself; it means so to train him that he will have the full and ready use of all his capacities; that his eye and ear and hand may be tools ready to command, that his judgement may be capable of grasping the conditions under which it has to work, and the executive forces be trained to act economically and efficiently. It is impossible to read this sort of adjustment save as constant regard is had to the individual’s own powers, tastes, and interests - say, that is, as education is continually converted into psychological terms.

In sum, I believe that the individual who is to be educated is a social individual and that society is an organic union of individuals. If we eliminate the social factor from the child we are left only with an abstraction; if we eliminate the individual factor from society, we are left only with an inert and lifeless mass. Education, therefore, must begin with a psychological insight into the child’s capacities, interests, and habits. It must be controlled at every point by reference to these same considerations. These powers, interests, and habits must be continually interpreted - we must know what they mean. They must be translated into terms of their social equivalents - into terms of what they are capable of in the way of social service.

ARTICLE II. WHAT THE SCHOOL IS.

I believe that the school is primarily a social institution. Education being a social process, the school is simply that form of community life in which all those agencies are concentrated that will be most effective in bringing the child to share in the inherited resources of the race, and to use his own powers for social end.

I believe that education, therefore, is a process of living and not a preparation for future living.

I believe that the school must represent present life - life as real and vital to the child as that which he carries on in the home, in the neighborhood, or on the play-ground.

I believe that education which does not occur through forms of life, or that are worth living for their own sake, is always a poor substitute for the genuine reality and tends to cramp and to deaden.

I believe that the school, as an institution, should simply existing social life; should reduce it, as it were, to an embryonic form. Existing life is so complex that the child cannot be brought into contact with it without either confusion or distraction; he is either overwhelmed by the multiplicities of activities which are going on, so that he loses his own power of orderly reaction, or he is so stimulated by these various activities that his powers are prematurely called into play and he becomes either unduly specialized or else disintegrated.

I believe that, as such simplified social life, the school life should grow gradually out of the home life; that it should take up and continue the activities with which the child is already familiar in the home.

I believe that it should exhibit these activities to the child, and reproduce them in such ways that the child will gradually learn the meaning of them, and be capable of playing his own part in relation to them.

I believe that this is a psychological necessity, because it is the only way of securing continuity in the child’s growth, the only way of giving a back-ground of past experience to the new ideas given in school.

I believe it is also a social necessity because the home is the form of social life in which the child has been nurtured and in connection with which he has had his moral training. It is the business of the school to deepen and extend his sense of the values bound up in his home life.

I believe that much of present education fails because it neglects this fundamental principle of the school as a form of community life. It conceives the school as a place where certain information is to be given, where certain lessons are to be learned, or where certain habits are to be formed. The value of these is conceived as lying largely in the remote future the child must do these things for the sake of something else he is to do; they are mere preparation. As a result they do not become a part of life experience of the child and so are not truly educative.

I believe that the moral education centers around this conception of the school as a mode of social life, that the best and deepest moral training is precisely that which one gets through having to enter into proper relations with others in a unity of work and thought. The present educational systems, so far as they destroy or neglect this unity, render it difficult or impossible to get any genuine, regular moral training.

I believe that the child should be stimulated and controlled in his work through the life of the community.

I believe that under existing conditions far too much of the stimulus and control proceeds from the teacher, because of neglect of the idea of the school as a form of social life.

I believe that the teacher’s place and work in the school is to be interpreted from this same basis. The teacher is not in the school to impose certain ideas or to form certain habits in the child, but is there as a member of the community to select the influences which shall affect the child and to assist him in properly responding to these influences.

I believe that the discipline of the school should proceed from the life of the school as a whole and not directly from the teacher.

I believe that the teacher’s business is simply to determine on the basis of larger experience and riper wisdom, how the discipline of life shall come to the child.

I believe that all questions of the grading of the child and his promotion should be determined by reference to the same standard. Examinations are of use only so far as they test the child’s fitness for social life and reveal the place in which he can be of most service and where he can receive the most help.

ARTICLE III. THE SUBJECT MATTER OF EDUCATION.

I believe that the social life of the child is the basis of concentration or correlation, in all is training or growth. The social life gives the unconscious unity and the background of all his efforts and of all his attainments.

I believe that the subject-matter of the school curriculum should mark a gradual differentiation out of the primitive unconscious unity of social life.

I believe that we violate the child’s nature and render difficult the best ethical results, by introducing the child too abruptly to a number of special studies, of reading, writing, geography, but the child’s own social activities.

I believe that education cannot be unified in the study of science, or so called nature study, because apart from human activity, nature itself is not a unity; nature in itself is a number of diverse objects in space and time, and to attempt to make it the center of work by itself, is to introduce a principle of radiation rather than one of concentration.

I believe that literature is the reflex expression and interpretation of social experience; that hence it must follow upon and not precede such experience. It, therefore, cannot be made the basis, although it may be made the summary of unification.

I believe once more that history is of educative value in so far as it presents phases of social life and growth. It must be controlled by reference to social life. When taken simply as history it is thrown into the distant past and becomes dead and inert. Taken as the record of man’s social life and progress it becomes full of meaning. I believe, however, that it cannot be so taken excepting as the child is also introduced directly into social life.

I believe accordingly that the primary basis of education is in the child’s powers at work along the same general constructive lines as those which had brought civilization into being.

I believe that the only way to make the child conscious of his social heritage is to enable him to perform those fundamental types of activity which makes civilization what it is.

I believe, therefore, in the so-called expressive or constructive activities as the center of correlation.

I believe that this gives the standard for the place of cooking, sewing, manual training, etc., in the school.

I believe that they are not special studies which are to be introduced over and above a lot of others in the way of relaxation or relief, or as additional accomplishments. I believe rather that they represent, as types, fundamental forms of social activity; and that it is possible and desirable that the child’s introduction into the more formal subjects of the curriculum be through the medium of these activities.

I believe that the study of science is educational in so far as it brings out the materials and processes which make social life what it is.

I believe that one of the greatest difficulties in the present teaching of science is that the material is presented in purely objective form, or is treated as a new peculiar kind of experience which the child can add to that which he has already had. In reality, science is of value because it gives the ability to interpret and control the experience already had. It should be introduced, not as so much new subject-matter, but as showing the factors already involved in previous experience can be more easily and effectively regulated.

I believe that at present we lose much of the value of literature and language studies because of our elimination of the social element. Language is almost always treated in the books of pedagogy simply as the expression of thought. It is true that language is a logical instrument, bit it is fundamentally and primarily a social instrument. Language is the device for communication; it is the tool through which one individual comes to share the ideas and feelings of others. When treated simply as a way of getting individual information, or as a means of showing off what one has learned, it loses its social motive and end.

I believe that there is, therefore, so succession of studies in the ideal school curriculum. If education is life, all life has, from the outset, a scientific aspect; an aspect of art and culture and an aspect of communication. It cannot, therefore, be true that the proper studies for one grade are mere reading and writing, and that at a later grade, reading, or literature, or science, may be introduced. The progress is not in the succession of studies but in the development of new attitudes towards, and new interests in, experience.

I believe firmly, that education must be conceived as a continuing reconstruction of experience; that the process and the goal of education are one and the same thing.

I believe that to set up any end outside of education, as furnishing its goal and standard, is to deprive the educational process of much of its meaning and tends to make us rely upon false and external stimuli in dealing with the child.

ARTICLE IV. THE NATURE OF METHOD.

I believe that the question of method is ultimately reducible to the question of the order of development of the child’s powers and interests. The law for presenting and treating material is the law implicit within the child’s own nature. Because this is so I believe the following statements are of supreme importance as determining the spirit in which education is carried on:

1. I believe that the active side precedes the passive in the development of the child nature; that expression comes before conscious impression; that the muscular development precedes the sensory; that movements comes before conscious sensations; I believe that consciousness is essentially motor or impulsive; that conscious stated tend to project themselves in action.

I believe that the neglect of this principle is the cause of a large part of the waste of time and strength in school work. The child is thrown into a passive, receptive or absorbing attitude. The conditions are such that he is not permitted to follow the law of his nature; the result is friction and waste.

I believe that ideas (intellectual and rational processes) also result from action and devolve for the sake of the better control of action. What we term reason is primarily the law of orderly or effective action. To attempt to develop the reasoning powers, the powers of judgement, without reference to the selection and arrangement of means in action, is the fundamental fallacy in our present methods of dealing with this matter. As a result we present the child with arbitrary symbols. Symbols are a necessity in mental development, but they have their places as tools for economizing effort; presented by themselves they are a mass of meaningless and arbitrary ideas imposed from without.

2. I believe that the image is the great instrument of instruction. What a child gets out of any subject presented him is simply the images which he himself forms with regard to it.

I believe that if nine tenths of the energy at present directed towards making the child learn certain things, were spent in seeing to it that the child was forming proper images, the work of instruction would be indefinitely facilitated.

I believe that the social life of the child is the basis of concentration or correlation, in all is training or growth. The social life gives the unconscious unity and the background of all his efforts and of all his attainments.

I believe that much of the time and attention now given to the preparation and presentation of lessons might be more wisely and profitably expended in training the child’s power of imagery and in seeing to it that he was continually forming definite, vivid, and growing images of the various subjects with which he comes in contact in his experience.

I believe that the social life of the child is the basis of concentration or correlation, in all is training or growth. The social life gives the unconscious unity and the background of all his efforts and of all his attainments.

3. I believe that interests are the signs and symptoms of growing power. I believe that they represent dawning capacities. Accordingly the constant and careful observation of interests is of the utmost importance for the educator.

I believe that the social life of the child is the basis of concentration or correlation, in all is training or growth. The social life gives the unconscious unity and the background of all his efforts and of all his attainments.

I believe that these interests are to be observed as showing the state of development which the child has reached.

I believe that the social life of the child is the basis of concentration or correlation, in all is training or growth. The social life gives the unconscious unity and the background of all his efforts and of all his attainments.

I believe that the prophesy the stage upon which he is about to enter.

I believe that the social life of the child is the basis of concentration or correlation, in all is training or growth. The social life gives the unconscious unity and the background of all his efforts and of all his attainments.

I believe that only through the continual and sympathetic observation of childhood’s interests can the adult enter into the child’s life and see what it is ready for, and upon what material it could work most readily and fruitfully.

I believe that these interests are neither to be honored nor repressed. To repress interest is to substitute the adult for the child, and so te weaken intellectual curiosity and alertness, to suppress initiative, and to deaden interest. To humor the interests is to substitute the transient for the permanent. The interest is always the sign of some power below; the important thing is to discover this power. To humor the interest is to fail to penetrate below the surface and its sure result is to substitute caprice and whim for genuine interest.

4. I believe that the emotions are the reflex of actions.

I believe that to endeavor to stimulate or arouse the emotions apart from their corresponding activities, is to introduce an unhealthy and morbid state of mind.

I believe that if we can only secure right habits of action and thought, with reference to the good, the true, and the beautiful, the emotions will for the most part take care of themselves.

I believe that next to deadness and dullness, formalism and routine, our education is threatened with no greater evil than sentimentalism.

I believe that this sentimentalism is the necessary result of the attempt to divorce feeling from action.

ARTICLE V. THE SCHOOL AND SOCIAL PROGRESS.

I believe that education is the fundamental method of social progress and reform.

I believe that all reforms which rest simply upon the enactment of law, or the threatening of certain penalties, or upon changes in mechanical or outward arrangements, are transitory and futile.

I believe that education is a regulation of the process of coming to share in the social consciousness; and that the adjustment of individual activity on the basis of this social consciousness is the only sure method of social reconstruction.

I believe that this conception has due regard for both individualistic and socialistic ideals. It is duly individual because it recognizes the formation of a certain character as the only genuine basis of right living. It is socialistic because it recognizes that this right character is not to be formed merely by individual precept, example, or exhortation, but rather by the influence of a certain form of institutional or community life upon the individual, and that the social organism through the school, as its organ, may determine ethical results.

I believe that in the ideal school we have the reconciliation of the individualistic and the institutional ideals.

I believe that the community’s duty to education is, therefore, its paramount moral duty. By law and punishment, by social agitation and discussion, society can regulate and form itself in a more or less haphazard and chance way. But through education society can formulate its own purposes, can organize its own means and resources, and thus shape itself with definiteness and economy in the direction in which it wishes to move.

I believe it is the business of every one interested in education to insist upon the school as the primary and most effective interest of social progress and reform in order that society may be awakened to realize what the school stands for, and aroused to the necessity of endowing the educator with sufficient equipment properly to perform his task.

I believe that the art of thus giving shape to human powers and adapting them to social service, is the supreme art; one calling into its service the best of artists; that no insight, sympathy, tact, executive power it too great for such service.

I believe that with the growth of psychological service, giving added insight into individual structure and laws of growth; and with growth of social science, adding to our knowledge of the right organization of individuals, all scientific resources can be utilized for the purposes of education.

I believe that when science and art thus join hand the most commanding motive for human action will be reached; the most genuine springs of human conduct aroused and the best service that human nature is capable of guaranteed.

I believe, finally, that the teacher is engaged, not simply in the training of individuals, but in the formation of the proper social life.

I believe that every teacher should realize the dignity of his calling; that he is a social servant set apart for the maintenance of social order and the securing of the right social growth.

I believe that in this way the teacher always is the prophet of the true God and the usherer in of the true kingdom of God.

University of Chicago
John Dewey
1897

The National Science Education Standards clearly communicate that by the end of 8th grade, U.S. students are expected to have an understanding of the structure of the earth, lithospheric plates, and the theory of continental drift (plate tectonics).

As a result of activities in grades 5-8, all students should develop understanding of:

Structure of the Earth System

• The solid earth is layered with a lithosphere; hot, convecting mantle; and dense, metallic core.
• Lithospheric plates on the scales of continents and oceans constantly move at rates of centimeters per year in response to movements in the mantle. Major geological events, such as earthquakes, volcanic eruptions, and mountain building, result from these plate motions.

Earth’s History

The earth processes we see today, including erosion, movement of lithospheric plates, and changes in atmospheric composition, are similar to those that occurred in the past. Earth history is also influenced by occasional catastrophes, such as the impact of an asteroid or comet.

As a science educator, I take these things seriously, so, imagine my shock when I saw a video of Rep Joe Barton (R-TX) and Dr. Steven Chu (physicist, Nobel Laureate, former director of Lawrence Berkeley National Laboratory, and current U.S. Secretary of Energy).  Rep Barton’s office posted this video of Joe “stumping” Dr. Chu on a simple question (04/22/09).

Holy cow fart!  The Secretary of Energy got stumped on a question about where the oil in Alaska comes from!  What a moron!  Oh, wait, perhaps the Nobel Laureate, a person who normally works with really smart people™ was surprised that a United States Congressman asked him a question basic to that Congressman’s oversight and creation of energy policy.  Perhaps the former director of the Lawrence Berkley National Laboratory and expert on alternative energy, thought he was testifying at a Congressional energy committee hearing, not an 8th grade science classroom?

Rep Barton, your ignorance is appalling.  Watching you revel in your ignorance disgusts me. Watching your smug #!@ make a fool of yourself - priceless.  Our country deserves better leaders.

Yes, Rep Barton, it just drifted there.  You might want to watch these two videos before your next committee hearing (Thanks Slick for sending these to me).

A couple of years ago, many of the “big energy” folks admitted that anthropogenic climate change is a real issue.

While the political debate over global warming continues, top executives at many of the nation’s largest energy companies have accepted the scientific consensus about climate change and see federal regulation to cut greenhouse gas emissions as inevitable.

The Democratic takeover of Congress makes it more likely that the federal government will attempt to regulate emissions. The companies have been hiring new lobbyists who they hope can help fashion a national approach that would avert a patchwork of state plans now in the works. They are also working to change some company practices in anticipation of the regulation.

“We have to deal with greenhouse gases,” John Hofmeister, president of Shell Oil Co., said in a recent speech at the National Press Club. “From Shell’s point of view, the debate is over. When 98 percent of scientists agree, who is Shell to say, ‘Let’s debate the science’?”  (Washington Post 11/24/2006)

The train has left the station. Global warming is for real and it is only a matter of time before a Democratic President and a Democratic Congress takes action.  Legislation has been introduced, public opinion is favorable, and the science is clear. Even Exxon Mobil knew the train was leaving the station and decided to get on board.

“I think that their (Exxon Mobil) position on the science of global warming has definitely changed,” said Dan Lashof, deputy director of climate at the Natural Resources Defense Council. “They found that it was untenable to be in a position of casting doubt on whether global warming is happening and whether pollution is responsible for that.”

–snip–

Cohen (VP Public Affairs, Exxon Mobil) said that with Congress’s sights set on greenhouse gases, the oil giant wants “to be part of those discussions.” (Washington Post, 02/10/2007)

Last week, The U.S. House of Representatives’ Energy and Commerce Subcommittee held a hearing on “The American Clean Energy and Security Act of 2009” – a Carbon cap and trade scheme proposed by Democrats.

Indeed, “When 98 percent of scientists agree, who is Shell to say, ‘Let’s debate the science’?”

Our government works best when we have an honest and vigorous debate on issues and solutions.  Lately, Democrats have labeled Republicans as the “Party of No Ideas.”  So, one would think that the Republicans would heed Hofmeister’s call to not argue the science and instead provide a credible alternative to their hated cap and trade scheme.  Umm…nope.

They don’t even have any new arguments against the science.  Instead, they rehashed this bizarre argument / commercial from the Competitive Enterprise Institute (A “think tank” funded with more than $2 million from Exxon Mobil between 1998 and 2005 - before Exxon Mobil got on the train.).  [NOTE: For more about how these "think tanks" create doubt about the science of climate change read this.]

Yes, this is a real commercial, aired in 2006. It is not satire.  It was not produced by The Onion. CEI tells you not to worry about climate change because Carbon Dioxide gives life.

The “New” 2009 Republican Climate Change meme – Carbon Dioxide is natural and necessary, so it can’t be bad.  Seriously.

House Minority Leader John Boehner (R-OH) April 19, 2009:

Boehner: The idea that carbon dioxide is a carcinogen that is harmful to our environment is almost comical. Every time we exhale, we exhale carbon dioxide. Every cow in the world, you know when they do what they do you’ve got more carbon dioxide.

Rep Michele Bachman (R-MN) Earth Day - April 22, 2009:

Bachman: Carbon dioxide, Mister Speaker, is a natural byproduct of nature. Carbon dioxide is natural. It occurs in Earth. It is a part of the regular lifecycle of Earth. In fact, life on planet Earth can’t even exist without carbon dioxide. So necessary is it to human life, to animal life, to plant life, to the oceans, to the vegetation that’s on the Earth, to the, to the fowl that — that flies in the air, we need to have carbon dioxide as part of the fundamental lifecycle of Earth.

Note: Carbon Dioxide only makes up 0.03% of the atmosphere, not 3%.

Rep Shimkus (R-IL) March 25, 2009:

Shimkus: It’s plant food … So if we decrease the use of carbon dioxide, are we not taking away plant food from the atmosphere? … So all our good intentions could be for naught. In fact, we could be doing just the opposite of what the people who want to save the world are saying.  (While questioning Lord Monckton)

It should also be noted that Lord Monkton backs this up by referencing the Cambrian period.  A time when the Earth had no land plants.

“When 98 percent of scientists agree, who is Shell to say, ‘Let’s debate the science’?”

Well, apparently Boehner, Bachman, and Shimkus know better than 98% of scientists.  Or, perhaps they just can’t admit that they have no alternatives to Cap and Trade, so they have to keep beating the Climate Change denier drum by making stuff up.

Rep Blumenauer (D-OR) Earth Day April 22, 2009 - responds Bachman and House Republicans [Look at that socialist treehugger – he even wears a green bicycle on his lapel]

Dear Republicans.  You are correct.  Carbon dioxide is necessary for life on Earth. But, as a good friend of mine said, “life can’t exist without water, but try living at the bottom of the ocean you stupid twit!”

Excessive Carbon Dioxide is harmful to our environment.  Scientists know it, Big Energy gave up denying it, now it is your turn - swallow your pride, admit you were wrong and become part of an honest discussion about what to do about it.

On Friday (1/23/09), the Franklin Institute hosted a panel for Educon 2.1 focused around the question, “What is the Purpose of School?” Here is my video of the panelists opening statements.

The quality isn’t that great. The video was taken with a Flip camera, in the dark.  I used the back of a seat to stabilize the camera. Unfortunately, I ran out of space and missed most of Joel Arquillos (Executive Director of 826LA) opening statement while I was busily deleting other video.

Dr. Squyres is a professor at Cornell and the Principal Investigator for the Mars Exploration Rovers.

Prakash Nair is the Co-Founder, Fielding Nair International: Architects and Change Agents for Education

Dr. Molefi Asante is a professor of African American Studies at Temple and author of more than 60 books.

Kendall Crolius is  a founding partner of The Sulevia Group.

Jeff Han is the founder of Perceptive Pixel and inventor of the multi-touch screen