Here's a Quote and Picture from the Store Listing of One of the Items that helps support this Blog and other Science Education and Science Literacy Projects.

Post under development.

Support science literacy and science education.

Quote (") (from Zazzle.com/ShipmanCenter, Proceeds to support science literacy and science education)

 Product Details

Infant Organic Creeper
The finest organic cotton for your baby. 100% organic baby rib cotton, combed for softness and comfort. Designed for easy on-and-off. Fits all babies – both boys and girls. Triple-seat snaps for bottom/diaper closure. Imported (But looking for US manufacturers).

About the Design
The Gone Forest by J S Shipman

Sustainability is key. The artist's passion is science literacy and science education leading to global sustainability. 

For [...] deer [to exist], we need the forest. We cannot be plant-blind.

A portion or the proceeds from the sale or this product will support such education. (Read more: http://read-about-it.blogspot.com) The Gone Forest. (Photo or acrylic original). Artist/artistiekerigst: J S Shipman [(c) 2008 J S Shipman. Used with [permission].]

Read more...

"I am selling different items with designs I have drawn or painted.
I may sell some items designed by others also. I am using part of
the profit on items bought from my store to support
science literacy, science education, and
sustainability." 
More information can be found at http://read-about-it.blogspot.com. 
Please share the link [...]with others. Thanks.

Read less...  [As a literacy site, we really want you to, "Read more."  For example:  http://read-about-it.blogspot.com/2013/01/looking-at-review-article-to-engage.html]

End quote (")

See the more about Iowa Lakeside Laboratory, Dr. and Mrs. John Dodd, and art and science here:  The Gone Forest

Looking at a Review Article to Engage Students in Science

Not every student puts science on the top of his or her list when it comes to captivating interests.  Yet, sustainability requires global citizens to be literate and educated in the sciences.  So, how can we capture student interest?

Perhaps you have pondered that question.  I will provide one answer (of the many available) and give an example here.  For this example, I will use a high school class level (ages 14-18), however, the technique may be modified for K (age 5) through U (age 18+-120+).

The article I have selected is one of many.  You can repeat such exercises a number of times.  I have chosen a review article as it is broader than a typical laboratory report-type article and it will therefore attract more students.  The review article selected for today:

Review
Herbal medicine in ancient Egypt
N. H. Aboelsoud
Department of Complementary Medicine Researches and Applications National Research Center- Cairo, Egypt.
           E  -   mail: neveenster   at   gmail   dot   com [modified to prevent spam]

 Accepted 8 December, 2009 

How will this article capture student interest?  Well, for one thing, Egypt has been in the news during their lifetimes, so, it is at least something familiar.  Most of them know about pyramids, for example.  If you ask them about Egypt, they will successfully have something to say.

Second-of-all, the scientist is approachable.  Aboelsoud has provided an e-mail address.  Even if students don't use it, they feel a connection with the researcher.  He uses electronic media like they do.

Wait, we haven't gotten to much science yet...  We will.  Look, we are already talking about reading a technical journal article.

But some of the students are putting on make-up (What, your students forgot lab safety rules? No.  Oh, I see, they've slipped out of the room and down the hall to the "lav" ... What better time than science to apply make-up?  At least they took hall passes and will be back soon...).

Oh, and let's get back to the article.  The citation information at the top of the page also informs us that the article is available on-line:

• Journal of Medicinal Plants Research Vol. 4(2), pp. 082-086, 18 January, 2010
• Available online at: http://www.academicjournals.org/JMP 
• ISSN 1996-0875© 2010 Academic Journals 

Good.  The students will likely enjoy accessing the article on-line, on their cell phones and newer technologies, or at the library computer.

A student that grows houseplants or gardens (or both) might find the section discussing,"Some of the medicines were made from plant materials imported from abroad," will suggest a new direction for science study: botany, economic botany, horticulture, or, even, border patrol.


Someone wishing to be a doctor might be captivated by this, "Thanks to the medical papyri, we know of many of the Ancient Egyptian treatments and prescriptions for diseases," or, " Medical prescriptions were written with high skill. A prescription usually began with a description of the medicine," or many other points in the article.  Students could compare and contrast the ancient prescriptions with modern ones, or, research new methods of treating the diseases mentioned with the Ancient Egyptians' treatments.

A history buff or someone who makes paper as a hobby might like all the descriptions of papyri.  Or, what about a map to where the plants were found and are found today, might that interest some?

Similarly, a student of ancient languages (Greek, Latin...) might also be interested in the ancient documents written on papyri and can go on to look up the science of preservation of old documents. Or, perhaps be interested in the scientific use of Latin as found in these examples:

- Acacia (acacia nilotica) - vermifuge eases diarrhea and internal bleeding, also used to treat skin diseases.

- Aloe vera - worms, relieves headaches, soothes chest pains, burns, ulcers and for skin disease and allergies.

- Basil (ocimum basilicum) - excellent for heart.

- Balsam Apple (malus sylvestris) or Apple of Jerusalem -
laxative, skin allergies, soothes headaches, gums and teeth, for asthma, liver stimulant, weak digestion.

- Bayberry  (Myrica  cerifera)  -  ...  [Many more examples are found in the article.]. 

The artist among the students may rather wish to draw the plants mentioned than study their Latin names.

The article does talk about adult topics (but many high school students do, too) so you might have to get permission from parents, guardians, schools (and caution is advised) because the article says, "The Kahun Papyrus (Ghalioungui, 1975) is a gynecological text  that  deals  with  topics  such  as  the  reproductive organs, conception, testing for pregnancy, birth, and contraception.   Among   those   materials   prescribed   for contraception are crocodile dung, honey, and sour milk (Rosalie and Patricia, 2008)."  Of course, some students' interests will be captured by these topics.  They might not have known science was so interesting.  And, the article could be a good segway to the school nurse's discussion with the students on similar topics.  Remember in high school, there are typically some students who become parents so some of their parents might like them to talk more about such topics.  Some students will laugh about the crocodile dung and some will need to be directed to their doctors for learning about safe practices, but, they will want to read more of the article.  I often worked with high school students who were between the ages of 18 to 21, so, this was less of a problem in terms of topic, but, even 80-year old students had to be guided to health care professionals for education in safe practices.

Let's get back to the students interested in make-up.  They might be interested that, "Malachite used as an eye-liner also had therapeutic value. In a country where eye infections were endemic, the effects of its germicidal qualities were appreciated (Andreas et al., 1995).  They could start a whole new interest on germs in make-up, or germicidal additions to make-up, or, what germs are, or MERSA, or...   Well, you get the idea.  Their imaginations can take-off.

Students very interested in religion might find interesting that, "Along with their strong faith in their gods, the Ancient Egyptians used their knowledge of the human anatomy and the natural world around them to treat a number of ailments and disorders effectively. Their knowledge and research is impressive still today, and their work paved the way for the study of modern medicine. The remedies used by Ancient Egyptian physicians came mostly from nature especially medicinal herbs."

A business-oriented student might see this,"A kind of what is called today Quality Control Test was  done after preparing a drug; a chemist had to test its quality," and be fascinated that there was an interest in quality control that long ago.  S/he might come up with a business idea using herbs.

Math whizzes may wish to calculate the proportion of herbs used in Ancient Egypt that are still used today, or, do further research and calculate ratios of herbs used in different formulas.

Your students will have more ideas about what interests them from this article.  Watch them come up with ideas.
Are you ready to read the article yet?  Get the point.  There are so many ways, in just this one review article to capture the imagination and stimulate greater science learning.  Your students will capture your passion, too.  Enjoy!  By the way, students might want to go on and read the articles this author cited, or, read other articles citing the review article or the articles it reviewed.  Students will also what may be a new, "genre," for them, a review article.  Soon, the whole school will be talking science.

(c)2013 J S Shipman.  Please cite any ideas borrowed from the posts here, including this one and write to the author to get written permission first for uses in text book or money making ventures.   Thanks.

###

For questions on reading in and for science or any STEM (science technology engineering or math) topic, or for a science literacy workshop for faculty or students, contact Dr. Shipman.

The Gone Forest: Art and Sustainability

Mrs. Dodd, wife of the famous algologist, Dr. John Dodd, quietly went over to the trash can at Iowa Lakeside Laboratory and retrieved some watercolor paintings I had tossed in the clean can.  She turned to me and said, "In all the years I've been at Iowa Lakeside Laboratory, I've never seen anyone paint the lab."  She took the paintings, had them framed and put them up to decorate the mess hall at the lab.  When I went to the laboratory last, they were still on the wall.  I feel much more a scientist than an artist, but, it is very nice to be appreciated.   Now, I am using my artwork to support science education and science literacy.  I found that the products can now be available in different countries.

Using an expression I learned in Iowa, I named this acrylic painting, "The Gone Forest."  After the tragic events of 911, many people moved out of New York City into these woods...Now there are human homes here and the deer (as well as bear and other wildlife) are missing the woodlands, thus, the gone forest.

Here are the links and descriptions for the art posted in the Netherlands, for example.  There may be some errors in the Dutch.  If you see any, please correct them.


http://www.zazzle.nl/melamine_plateer_het_gegane_bos _door_j_s_shipman-115452896327967650

The Gone Forest
Artist/Artiest: J S Shipman (Bewerken)

Sustainability is key. The artist's passion is science literacy and science education leading to global sustainability. For the deer to be there, we need the forest. We cannot be plant-blind. A portion of the proceeds from the sale of this product will support such education. (Read more: http://read-about-it.blogspot.com) The Gone Forest. (Photo of acrylic original). Artist/Artiest: J S Shipman (c)2008 J S Shipman. Used with permission.

In other words:
Houdbaarheid is hoofd. De passie van de artiest is wetenschapalfabetisme en wetenschapopvoeding die tot globale houdbaarheid leidt. Voor het hert om daar te zijn, hebben nodig wij het bos. Wij kunnen plant-blinde niet zijn. Een gedeelte van het gaat door van de verkoop van dit product zal zulke opvoeding steunen. (Lezing meer: http://read-about-it.blogspot.com) Het Gegane Bos. (Foto van acryl origineel). Artiest/artistiekerigst: J S Shipman (c)2008 J S Shipman. Gebruikt met toestemming.

http://www.zazzle.nl/shipmancenter  Netherlands Store:
Mijn winkel op Zazzle bekijken

http://www.zazzle.co.jp/shipmancenter  Japanese Store

http://www.zazzle.fr/shipmancenter/cadeaux French Store

http://www.zazzle.com/shipmancenter  American Store (USA)

Great news from Italy: Major steps toward growing replacement kidneys. How exciting!!!

Here are some quotes and their translations on an exciting discovery.  There's also a related video.  Read them, watch the video, and think about these things:

1.  Do you think that the body will reject kidneys grown from techniques like these?  Why or why not?  Can you support your answer?  Give some references for the items you choose for support.

2.  Is there a similarity among the work of scientists globally?

3.  Dr. J thinks this news is exciting.  Do you?  Why or why not?

4.  Was it interesting to hear a woman scientist speaking in her own language?  Could you pick up some words?  
5.  Do you know someone with a kidney disease?

6.  What are some ways you can protect your kidneys?

Please feel free to add comments below.

The technique in fact opens the way for technologies that make it possible to produce human nephrons from patient's own cells and to mimic human renal diseases by means of genetic manipulation in order to study the complex mechanisms and a preliminary assessment of the activity of the drugs, thereby reducing the experimentation animals. "The generation of nephrons from single cells - adds Ariela Benigni, head of the Department of Molecular Medicine Center Astori - had never been described

Original text

La tecnica infatti apre la strada a tecnologie che consentiranno di produrre nefroni umani da cellule del paziente stesso e di mimare mediante manipolazione genetica malattie renali umane per studiarne i complessi meccanismi e valutare in via preliminare l'attività dei farmaci, riducendo in questo modo la sperimentazione sugli animali.  “La generazione di nefroni a partire da singole cellule – aggiunge Ariela Benigni, capo del dipartimento di Medicina Molecolare del Centro Astori – non era mai stata descritta

Source:  http://goodnews.ws/  Accessed 19 Oct 2012  (Translation—Google Translate)

Source: http://www.youtube.com/watch?feature=player_embedded&list=PLEaq_sngcrrvnZCfufPzWHRTCrWti_P69&v=Q5of--G6bkg  Accessed 19 Oct 2012  (Translation—Google Translate)

The importance of the discovery is confirmed by the fact that the Journal of the American Society of Nephrology, a magazine that publishes the work of Xinaris in its issue of October 18, 2012 

Original text

L'importanza della scoperta è testimoniata dal fatto che il Journal of the American Society of Nephrology, rivista che pubblica il lavoro di Xinaris nel suo numero del 18 ottobre 2012*, ha voluto dedicarle l'editoriale.

Source:  http://goodnews.ws/  Accessed 19 Oct 2012  (Translation—Google Translate)

Can you find the original journal article?  http://jasn.asnjournals.org/content/23/10.toc .  Reading journal articles can be a slow process and the more you read them in a certain area, the faster the process is.  I encourage you to follow new developments, like this one, as they happen, in the technical journals.  You might not know all the words, but as Joan Beinetti says (personal communication, 1989), "No one knows all the words."  You develop a bigger vocabulary by reading more and using the new words you find.  Enjoy!

(c) 2012 J S Shipman

Active Engagement in Science and Mathematics through Music- Pattern Recognition leading to Higher Mathematics needed for Deeper Study in the Sciences

Here is a peaceful video to watch on the interconnections of mathematics and music.  Watch it and see what ideas come to your mind for connections of math and music to science.  Think about what questions come to your mind, if any, when you watch the video?  Jot them down.  



Since in this blog, the focus is on science literacy and science education, how can the video enhance them?  For example, did you hear new vocabulary?  A video can bring new vocabulary to life because we hear the words pronounced and also see the usage of the word, the context.  Mathematics is important to science literacy.  That is why the STEM- science, technology, engineering and math- education focus prominent today includes the, "M."Another valuable M, however, is music.  Music can engage students in science (That is why I once submitted a grant proposal to FIPSE called, Humanities at the Heart of Science.  Music is one of the humanities that engages students).  Vocabulary development is one way.  Another is the ability of music in the video to engage students in science and mathematical studies.

Many skill sets of musicians and scientists overlap.  Can you think of some?  List as many as you can.  Now circle on the list skills you think you have or could develop.  Write a reflection on what you discover by this exercise.

How can you use the video to further enhance science reading?  Do you know Harlan Brothers?  Have you seen his journal articles?  Do you know how to find them?  Remember that in journal articles, you might find new and difficult vocabulary.  Remember as Joan Beinetti says, "No one knows all the words," (personal communication, 1989).  After you have slowly read one or two articles on a topic, you will start to develop more vocabulary in the field of the article.  The more vocabulary you develop, the easier other articles on the same topic are to read.  By the time you have read 5 or 6 articles, you are likely to be looked at by others as an expert...or, at least, quite knowledgeable, in that area.

Let's go about finding some articles.  Just searching using his name, we find a number of links.  Let's look at one:

http://www.brotherstechnology.com/math/

H. J. Brothers, "The Nature of Fractal Music," in Benoit Mandelbrot - A Life in Many Dimensions, edited by Michael Frame, World Scientific Publishing (Fall, 2012).

H. J. Brothers, "Pascal's triangle: The hidden stor-e ." The Mathematical Gazette, Vol. 96, No. 535, 2012; pages 145-148.  [Try this, too: http://www.brotherstechnology.com/math/pascals-prism.html]

H. J. Brothers, "Pascal's prism." The Mathematical Gazette, Accepted for publication, July 2012.  (See here also.) [and here: http://www.worldscientific.com/worldscibooks/10.1142/8238]

Pick one of the articles or books above as a starting point, or, try to find an article on your own to start with.  

You might be interested in the following biographical information quoted from Wikipedia:

In 1997, while examining the sequence of counting numbers raised to their own power ( {a_n}=nⁿ ), Brothers discovered some simple algebraic formulas ^[1] that yielded the number 2.71828..., the universal constant e, also known as the base of the natural logarithm. Like its more famous cousin π, e is a transcendental number that appears in a wide range of formulas in mathematics and physics.

Having no formal college-level mathematics education, he sent brief descriptions of his findings to the host of the National Public Radio show “Science Friday” and also to a well-known mathematician at Scientific American.

His communication with “Science Friday” led to a fruitful collaboration with meteorologist John Knox. Together they discovered over two dozen new formulas and published two papers on their methods. These methods subsequently found their way into the standard college calculus curriculum by way of a popular textbooks on the subject.^[2] [3]

Brothers went back to school to study calculus and differential equations. He went on to publish methods for deriving infinite series that include the fastest known formulas for approximating e.^[4]  (Source: http://en.wikipedia.org/wiki/Harlan_J._Brothers#Publications.  Accessed 11 October 2012.    See also:  http://creativecommons.org/licenses/by-sa/3.0/.).

So, there is a fine example of a student communicating on an interest leading to a fascinating career in an subject that blends his love of math and music.  Before digressing too much, let's return to fractals and music, remembering that reading slowly and carefully, you will develop the needed vocabulary to understand even very difficult topics. And, you can contact people, as did, Harlan Brothers, and meet the people you need to grow your knowledge.

Let's look at the abstract of another article on fractals and music (http://www.euromath.org/assets/files/2010/2.Alice%20Cortinovis.pdf, accessed 11 Oct 2012):

FRACTALS AND MUSIC

Alice Cortinovis, Liceo Scientifico Mascheroni -  Bergamo –  

Email: alicecrvs@gmail.com

ABSTRACT The objective of this paper is to identify  some distinctive features of fractal music – offering a possible answer to the question: “What does fractal music mean?”.  Following an introduction to the general concept of fractals, it discusses their fundamental characteristics, that is the scale invariance and self-similarity derived from a power law. The understanding of the fractal nature of music requires a clear grasp of the fundamental physical characteristics of sound, such as pitch, duration and timbre. The perception of music, however, is  a psychological experience, so the paper briefly explores some amazing but widely known examples of aural illusions, deriving from our logarithmic sensitivity. Following a brief  outline of the main areas of current research in this sector, the paper proposes a formal definition of fractal music, based on its physical, mathematical and psychological characteristics.  Finally  a musical composition is analyzed, showing that it is indeed real fractal music according to the proposed definition. The paper concludes by suggesting possible areas for further exploration."

It looks like this article might be readable, but, even here, students will have to develop some vocabulary as the authors definition may be difficult for many people (children and adults, alike).  Also, the author is new to this research area and the understanding is limited as a result.  Check out the definition of fractals in the article here:

http://www.euromath.org/assets/files/2010/2.Alice%20Cortinovis.pdf 

 and compare it to what you find here:

http://www.brotherstechnology.com/yale/FractalMusic/FracMusicBground/Frac.html, 

or here:

http://www.brotherstechnology.com/yale/FractalMusic/FracMusicBground/Frac.html

Have students note that not every article presents the rigorous academic nature needed for serious study fractal music.  Have the students check for these concepts and other possible errors:

Transliteration 

All Iteration

Limited Self-Similarity

Let students have fun finding articles and slowly reading them, using the dictionary at hand or an on-line dictionary as needed.  For example, fractals are defined here:

http://www.brotherstechnology.com/docs/fractals.pdf

A deeper study of fractals and related material can be found here,  "a collection ... meant to support a first course in fractal geometry for students without ... strong mathematical preparation, or any particular interest in science:"

http://classes.yale.edu/Fractals/ 

Have students do their own searches for definitions and journal. (Be sure your virus protection is on.) Have them check the academic rigor of any definitions they find.  Similarly, are the journal articles they look at refereed (peer-reviewed by those knowledgeable and recognized in the field of study)?  Have the students each find an article abstract by a leading researcher in this field.

After the students read the article abstract(s), they might wish to get the article(s) by inter-library loan from the local library and then read the full article and even e-mail the author with a question.  They might even pick up a musical instrument and try to make some musical fractals.  Enjoy!

Note that Michael Frame and Harlan J Brothers have worked hard to establish a rigorous framework for the study and discussion of fractal music. Comments or questions can be posted below in the comment section and also submitted to:

"Dr." J.  and to Harlan Brothers



(c)2012 J S Shipman

Canadian Sustainability Group Provides a Role Model

Here's a link to a Canadian sustainability group:
http://blogs.ubc.ca/biorenewablescafe/.

The Biorenewables Cafe meets informally and provides a networking forum for people interested in sustainability.   The September meeting featured a speaker, Dr. Richard Chandra, from the UBC Faculty of Forestry.  Dr. Chandra is a research associate in the Forest Products Biotechnology/ Bioenergy Research Group. His talk, "Bio-fuels and Bio-products from Biomass:  Breaking apart something that's meant to stay together," will springboard the networking session.  Here is a quote of the abstract from his presentation:

Bio-fuels and Bio-products from Biomass: Breaking apart something that’s meant to stay together! 

The major hurdle to overcome when trying to unlock the energy in leftover agricultural biomass and woody waste to supply our needs for renewable fuels and products is the inherent recalcitrance of the biomass itself. Nature has interwoven the chemical components of biomass into a structure that resists breakdown by biochemical means, thus necessitating various processes called pretreatments. Pretreatments aim to cleanly separate these chemical components in a usable form and, in many cases are analogous to processes used in the pulp and paper industry. This presentation will examine the biology, chemistry and physics responsible for the resistance of biomass to breakdown, while detailing the various pretreatment processes that are currently being examined at UBC which aim to maximize the value obtainable from biomass.

This Canadian sustainability group serves as a model because many of us could form such groups in our own communities where we can learn from one another, listen to experts, read, discuss, and improve science literacy on sustainability.  In fact, global sustainability will increase as more and more of us educate ourselves and each other about how we can sustain the Earth. 

In school communities, each student could spend time becoming a mini-expert by reading up on a particular aspect of sustainability, or, even by "slogging" through a journal article and slowly learning its vocabulary, and content.  Then, students could come together after 2 weeks or three of their independent or small group work and could then learn in a cooperative manner, but also have fun, by having their own Sustainability Cafe...healthy snacks included (by assisting parents and school volunteers).  Please feel free to report back here on your experiences either by adding a comment or by submitting a post. (Please put BLOG POST in the re: line.  Thanks.)

Forest Products Biotechnology/Bioenergy Research Group:  http://www.bioenergy.ubc.ca/
Biorenewables Cafe on Linked-in:  http://www.linkedin.com/groups/Biorenewables-Caf

(c)2012 J S Shipman.  All rights reserved.

A link from Fairchild Gardens on Plant Extracts...Let Students design Experiments getting Ideas from this Ethnobotany Teaching Module

Here is a link from Fairchild Gardens on Plant Extracts...Let Students design Experiments getting Ideas from Fairchild Gardens' Ethnobotany Teaching Module.
http://www.fairchildgarden.org/uploads/docs/Education/Downloadable_teaching_modules/ethnobotany/plant%20tinctures%20and%20extracts.pdf
A quote from the module suggests that plants might have antibacterial properties:


"Pl[ant]- Antibiotics:                        
Does your Plant [h]ave                    
Anti-[b]acterial Properties?          

"In this experiment we will find out if your plant extract has the ability to kill the bacteria that turns milk into yogurt (like Lactobacillus acidophilus and/or L. bifidus).  These helpful bacteria enhance digestion and are good for you.  If your plant is able to kill or inhibit the growth of these bacteria, there is a possibility that it may also be effective in controlling harmful pathogenic bacteria.  If so, your plant might be a candidate for further research as a potential antibiotic drug for the future. "

Rather than just going ahead with the module,which is adapted from Paye, Gabriell DeBear, 2000. Cultural Uses of Plants: a guide to learning about ethnobotany. New York Botanical Garden Press, New York, first let students brainstorm.  Let them exercise their brains.

·  Students might reflect on what bacteria cause milk to turn to yogurt

   or other cheeses.

·  What bacteria are in their yogurts?  Does yours have Lactobacillus rhamnosis?

·  Would different bacteria react differently?

·  And so on...  

·  Put down all ideas, even if they seem impossible or tangential.

You might then continue with the module, or, let them design experiments.  Review important parts of experimental design.  Remind them of controls, replication, repeatability.  Ask, "What are the parts of an experimental design?"  Ask, "What type of data will you collect?"


Let students create blank data tables for collecting data.  Let them write out their designs, share them.  Let each student select what he or she feels is the best experimental design.  Remind them of the difference between a laboratory activity and a laboratory experiment.

Decide then if they are going to continue with the module.  You may decide to do that, or, you may prefer to do one or more of the student designs, or, you may wish to do the module and the student-designed experiments, of course paying attention to safety and budget, just like in real-world science.  Remind students of government funding for science.  Ask what kinds of research government should fund. 

· Additional reading:

 The United States, under John Kennedy and Japan, under Emperor Hirohito

"[H]is interest in science and in modernizing his country,"  http://www.hyperhistory.net/apwh/bios/b3hirohito.htm), Accessed July 7, 2012.)

(c)2012 J S Shipman

Using Today's In the News to build Science Literacy

"Five Million Test-Tube Babies Born Worldwide  The birth of Louise Brown, the world's first so-called test-tube baby, made headlines around the globe in 1978. The use of in vitro fertilization (IVF), an assisted reproductive technique in which the egg is fertilizedoutside the womb and then implanted in the uterus, was considered controversial at the time, but in the decades since, it has been widely accepted and has helped millions of infertile couples to conceive. To date, experts estimate that five million test-tube babies have been born. About 350,000 enter the world every year.More ... Discuss"   Source:  In the News.   Accessed July 5, 2012.

The quote above is from In the News included at the left.  Because the left-hand column In the News section changes every day, the quote for today is included here so the correct In the News item stays with the post.

Parents can use newspaper and web articles on current science topics to strengthen their children's science literacy:

• Build vocabulary
• fertilization
• in vitro
• in vivo
• reproduction
• reproductive
• egg
• ovum
• conception
• conceive
• fertile
• infertile
• test-tube
• womb
• uterus
• reproductive system
• meiosis
• Capture student interest
• Use the picture
• Relate to a family that is trying IVF 
• Link to topics in the curriculum
• meiosis
• somatic versus sex cells
• life cycles
• Discuss family values
• Talk about possible families, adoption, IVF, abortion, sharing your values
• Build the habit of staying current in science and technology
• Make, "keeping up with the times," a habit.

Enjoy the news with your family.  Build science literacy as you do.  Your child may develop an interest in further studying one of the news topics and be gifted to bring new science news to us in the future.  At a minimum, it is likely that keeping up with science as it develops will enhance employability and youthfulness.  Yes, enjoy the news with your family.

(c)2012 J S Shipman .  All rights reserved.  All posts on this blog are copyrighted.

Krebs cycle, ATP production, cell communication, and photosynthesis

Part of Science Literacy is knowing what you need to know...

Post under development  Back later...

"I need help with Krebs' cycle, ATP production, cell communication, and photosynthesis as soon as possible."

So...here is a plea from a person who really wants to learn...What can we do...Even better, what can this person do?

Active learning is the best way to acquire and keep information.  Knowing one's own style of learning is also helpful.  Let's look at first steps.

How much time do we have to learn the information?  This number is important for time management.  We can decide how much time we have for each topic.

Jot the time you have down  __________________________________.

Set up a schedule based on your other commitments and the time slots you can devote to this study.  Get a notebook, and all your study materials and handout sheets, if any.  You can use them to help support what  other tools you find.

Now, lets look at each  topic.  Organize what you already know under each heading, even if it only a series of questions that you want answered.

Krebs' cycle 

Cycle...sounds like circle or re-cycle....Maybe it has to do with something going around   (Perhaps that's all you can think of.)  

Add what else you already know here, add your questions, then go to the next topic.  Afterward, come back and add information from other resources.  I'll start you off.  You continue.  I'll be back in a day or so to see if you have made any progress...first, though, let's look at Kreb's Cycle

Krebs' cycle 

Cycle...sounds like circle or re-cycle....Maybe it has to do with something going around   (Perhaps that's all you can think of.)  

Students often start with Wikipedia from a Google or other search engine search.  Okay, let's start here.   I'll be back when you've had a chance to read this.  In fact, you can look up similar information on the other topics and glance through them.  We'll figure out ways to comprehend the information later

Citric acid cycle - Wikipedia, the free encyclopedia

en.wikipedia.org/wiki/Citric_acid_cycle

The citric acid cycle — also known as the tricarboxylic acid cycle (TCA cycle), theKrebs cycle, or the Szent-Györgyi–Krebs cycle — is a series of chemical ...

Evolution - Overview - Steps - Products

ATP production 

Don't forget to add what you already know about ATP production and questions that you may have...

Here are some beginning web search finds:

http://en.wikipedia.org/wiki/Adenosine_triphosphate, and,

http://www.phschool.com/science/biology_place/biocoach/cellresp/review1.html 

Cell communication, and 

Don't forget to add what you already know on cell communication and questions that you may have...

Here are some beginning web search finds:

http://en.wikipedia.org/wiki/Cellular_communication_(biology)

Oh, something else interesting came on the radar:

http://learn.genetics.utah.edu/content/begin/cells/insidestory/

...we could look at that, too.

Photosynthesis

Don't forget to add what you already know about photosynthesis and questions that you may have...

Here are some beginning web search finds:

http://en.wikipedia.org/wiki/Photosynthesis

But, look at this, too:

http://nhscience.lonestar.edu/biol/bio1int.htm

I'll be back.  Here's a list modified from the above mentioned source (http://nhscience.lonestar. edu/biol/bio1int.htm), accessed June 28, 2012:

Photosynthesis; Plants

• Light Absorption
• Atomic Absorption of Electromagnetic Radiation University of California.
• Jablonski Diagram Molecular Expressions
• Photosynthesis University of Alberta
• Light Reaction
• Harvesting Light
• Photosynthesis by John Kyrk
• Photo systems 1 and 2-Oxygenic Photosynthesis by Sue Merkel, Cornell Univ
• Photosynthesis Animation by John L. Giannini
• Energy Capturing Photosynthesis animation by June B. Steinberg
• Photosynthesis Animation - Light Reaction Central Michigan University
• Photosynthesis McGraw-Hill
• Light Reaction Smith College
• Dark Reaction - Calvin Cycle
• Calvin Cycle Animations by June B. Steinberg
• Interactive Photosynthesis Biochemistry by Garrett and Grisham
• Calvin Cycle Smith College
• Calvin Cycle ASM Press and Sinauer Associates Inc.
• Calvin Cycle McGraw-Hill
• Overall
• Metabolic Processes Terry Brown
• Photosynthesis Forest Biology Virginia Tech
• Photosynthesis University of Aberdeen
• Illuminating Photosynthesis By Rick Groleau PBS
• An Overview of Photosynthesis The Biology Place

Let's try Khan Academy now:

Krebs' cycle; Science Literacy

http://www.khanacademy.org/science/biology/v/krebs---citric-acid-cycle

ATP production; Science Literacy

Cell communication; Science Literacy

Photosynthesis; Science Literacy

http://www.khanacademy.org/science/biology/v/photosynthesis  which is also available on Youtube:  

 You can find other videos on photosynthesis, Here is one done by two students as a project for a class:

Source:  http://www.youtube.com/watch?v=2xNwZCk2CHY&feature=related.  Accessed June 29, 2012.

Next steps; Science Literacy

Practice makes perfect!  What do you think?  Do you have a way to remember and use the information yet?  Higher order thinking on these topics is your aim.  So, let's work on that next.  Come up with some memory aids or mnemonic devices.

Also, think about the kinds of questions you can be asked on these topics...Put another way, "What is important about them?"  Then, make your reason for knowing them:  "I need to know this because________________."

Think about location, location, location:  Where do these metabolic processes occur in the cell?  What if the cell is prokaryotic like bacteria and blue greens?  What if the cells are eukaryotic like yours?  Or, like a trees?  Whay about in a set of organisms like found in a lichen?

What journal articles are found on these topics?  Have you thought about current research related to these four biology topics?

Think about how you can use this information, because that linkage to you...that formation of, "relevancy," in your brain, is what will let you remember it and use it when you need it in some future, as yet unknown, situation.  That will enable even higher order thinking such as synthesis, and analysis, needed to solve problems... global problems.

You might also wonder who is Krebs.  How did he think?  Isn't learning fun?  Each new idea leads to so many more.

  Source:  http://es.wikipedia.org/wiki/Hans_Adolf_Krebs.  Accessed June 28 2012.

Hans Adolph Krebs

How did he think?

How do you think?  I'll leave you with that thought.  Enjoy.

(c) 2012 J S Shipman All rights reserved.

(All blog posts on Read-about-it.blogspot.com here are copyrighted by the author and J S Shipman.)