So…white and pure!

You will remember THIS entry of a few weeks ago about the snow and winter. Today was again a snowy day and this time, I had my camera with me!! Traffic was quite heavy on the small road I’m travelling, before I get on the main road. I couldn’t resist taking pictures, whilst sitting in the car, before moving on another car length, just to sit again for 5 min-10 min. To be honest, I didn’t mind the wait, as I could just sit – in awe. I couldn’t get enough of the beauty that surrounded me and thought to share it with you today! Enjoy with me these images and I hope you understand now why I got so excited about the views in the other entry. I loooove snow, it’s so white and pure…wishing all people on earth could be so pure.

“I wonder if the snow loves the trees and fields, that it kisses them so gently? And then it covers them up snug, you know, with a white quilt; and perhaps it says “Go to sleep, darlings, till the summer comes again.”
― Lewis Carroll, Alice’s Adventures in Wonderland & Through the Looking-Glass

Please click on the images for a larger view.

Here’s a poem to enjoy! My 5000 words are done… now to hand in my assignment on Monday…hip-hip hurray! One more to go!

Wow, was just reading this entry about De Bono’s patterns of thinking again. Read what he says about creativity! 

Shakespeare… again…my favourite

Blow, Blow, Thou Winter Wind

Act II, Scene 7 from As You Like It by William Shakespeare (1600)

 

Blow, blow, thou winter wind.
Thou art not so unkind
As man’s ingratitude;
Thy tooth is not so keen,
Because thou art not seen,
Although thy breath be rude.
Heigh-ho! sing, heigh-ho! unto the green holly:
Most friendship is feigning, most loving mere folly:
Then, heigh-ho, the holly!
This life is most jolly.
Freeze, freeze, thou bitter sky,
That dost not bite so nigh
As benefits forgot:
Though thou the waters warp,
Thy sting is not so sharp
As friend remember’d not.
Heigh-ho! 

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A quest of thoughts

Sonnet 46

Mine eye and heart are at a mortal war,
How to divide the conquest of thy sight;
Mine eye my heart thy picture’s sight would bar,
My heart mine eye the freedom of that right.
My heart doth plead that thou in him dost lie,
A closet never pierc’d with crystal eyes
But the defendant doth that plea deny,
And says in him thy fair appearance lies.
To side this title is impannelled
A quest of thoughts, all tenants to the heart;
And by their verdict is determined
The clear eye’s moiety, and the dear heart’s part:
As thus; mine eye’s due is thy outward part,
And my heart’s right, thy inward love of heart.

Shakespeare

Have fun and create your own Wordle here. The link will open in a new window. Follow the link and copy/paste your text and…voila! This is my Shakespeare contribution and I hope you enjoy it too!

Sonnet 116

Let me not to the marriage of true minds
Admit impediments; love is not love
Which alters when it alteration finds,
Or bends with the remover to remove:
O, no, it is an ever-fixèd mark,
That looks on tempests and is never shaken;
It is the star to every wand’ring bark,
Whose worth’s unknown, although his heighth be taken.
Love’s not Time’s fool, though rosy lips and cheeks
Within his bending sickle’s compass come;
Love alters not with his brief hours and weeks,
But bears it out even to the edge of doom.
   If this be error and upon me proved,
   I never writ, nor no man ever loved.

Sonnet 18

Shall I compare thee to a summer’s day?
Thou art more lovely and more temperate:
Rough winds do shake the darling buds of May,
And summer’s lease hath all too short a date:
Sometime too hot the eye of heaven shines,
And often is his gold complexion dimmed;
And every fair from fair sometime declines,
By chance or nature’s changing course untrimmed;
But thy eternal summer shall not fade,
Nor lose possession of that fair thou ow’st;
Nor shall death brag thou wander’st in his shade,
When in eternal lines to time thou grow’st:
   So long as men can breathe, or eyes can see,
   So long lives this, and this gives life to thee.

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Only in South Africa…

Image: http://gsport.co.za

I think this is brilliant! Just think how the children can keep themself busy playing chess during breaks! and you will get more children interested in the game! As you can see from these images, these stands can be placed anywhere! I think these people deserve a 10/10 for this idea. See more info on this site: http://www.ramlodi.co.za/

There is little doubt that a development plan that benefits all the parties involved, is a development plan that is bound to succeed, and Mind Sports SA believes its development plan backed by Ramlodi Outdoor Advertising can put together an exciting and dynamic programme, where everyone wins.

Mind Sports South Africa (MSSA) is an affiliate of the South African Confederation of Sport and Olympic Committee, and is responsible for the good governance and promotion of Historical figure games (also known as wargames), Board games (such as Diplomacy, Checkers, Draughts, Morabaraba, etc), and Computer games (whether they are played on ‘cell phones, Sony® PSP’s, personal computers or similar).

The programme is based on open-air game stands at schools, which receive a monthly payment while the game stand is sponsored, and MSSA is focussed on ensuring that the games played in an ever increasing number of schools.

The Morabaraba game stand, which has been used to develop strong mathematical skills. The programme’s official rollout has been aided by the Tshwane University of Technology, which has sponsored a number of game stands being distributed to schools, beginning at Pretoria West High, where a delighted Headmistress Rita Coetzee took delivery of the first two stands.
As soon as the stands were positioned in the quad, learners descended en masse to the game stands and began to play. Only when the bell rang signifying the end of break did the learners leave the stands.

Steven Kekana of Tshwane University of Technology (TUT) was also delighted with the response of the learners to the game stands, as the game of Morabaraba is well known to have a strong linear mathematical background, and has previously been used by Tshwane University of Technology to identify learners who have strong mathematical skills.

Additional stands will be set up at schools in Benoni, Johannesburg, Witbank, Nelspruit, Attridgeville, and Mamelodi within the month.

Source: http://gsport.co.za/index.php?option=com_content&task=view&id=1681&Itemid=52

Images: ramlodi.co.za…IM Watu Kobese…The “Lion” of South Africa (right)

http://rpc.technorati.com/rpc/ping

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My whole brain

A few years ago I was fortunate to be chosen to attend a day “course” on creativity and the whole brain. I really enjoyed the course and Dr Kobus Neethling (read about him at the bottom of my post) was expected to be there, but he was held up and we had only his videos to watch however, we were fortunate too to have brilliant speakers to lead the day. We had to do all sorts of activities and one “test” results pointed out that I was a “whole-brain”-person. They say that you should strive to use your whole brain. I’m not always sure if I really use my “whole brain”…e.g. today, I’m really in a lazy mood and I think I don’t want to use my brain at all! Picasso was also a “whole brain”-thinker! I’ve found this fun website where you can create your own “Picasso”!  THIS LINK to create your own Picasso!

If you’re a chess player, you will find this PDF-document-link interesting…or if you’re interested in the brain. Please click on chess and thinking to read the pdf document about chess and content- orientated psychology thinking – the link will open in a new window.

AND you might want to read on this forum about “Chess and the brain”…
http://www.chesscircle.net/forums/general-chess-forum/12623-article-chess-and-the-brain.html and this document/research was done by Brunel University. http://bura.brunel.ac.uk/bitstream/2438/2274/1/Gobet-Intelligence+and+chess.pdf
Please click HERE to see a movie about chess that can sharpen your wits AND how chess helps with your logical thinking!! The link will open in a new window.

Whole Brain Thinking
What is WHOLE BRAIN THINKING? Whole Brain thinking is when the two cerebral hemispheres of the brain unify to create a “whole brain thinking” pattern. Using whole brain thinking enhances living, logic, intuition, analytical skills, mechanical reasoning and artistic ability. Whole brain thinking, essentially enriches brain functioning to a superior level of heightened awareness. To better understand the effects of whole brain thinking, read on:

Left Brain thinkers are often engineers and scientists; Right brain thinkers are most often artists and poets. In overview, left brain thinkers use structured analysis in their thought patterns; right brain thinkers use patterned recognition in their thought patterns. When both are combined, intuition is the ultimate achievement of the two. Clarification of whole brain thinking is that persons who use whole brain thinking have the ability not only to be creative in the arts, but could possibly fix a diesel truck engine as well. By using whole brain thinking, the impossible becomes possible.

Some of the world’s greatest pioneers, inventors and leaders use whole brain thinking. Leonardo da Vinci was not only a fine artist but a great scientist as well. Frederic Bartholdi, creator of the Statue of Liberty, utilized whole brain thinking — not only did he create the Statue of Liberty, he also engineered the scientific dimensions of his creation.
Source: http://www.holisticjunction.com/categories/HPD/whole-brain-thinking.html

http://www.12manage.com/methods_herrmann_whole_brain.html

The four thinking styles in the Whole Brain Model are:

1. Logician: Analytical, Mathematical, Technical and Problem Solving.
2. Organiser: Controlled, Conservative, Planned, Organised and Administrative in nature.
3. Communicator: Interpersonal, Emotional, Musical, Spiritual and the “talker” modes.
4. Visionary: Imaginative, Synthesizing, Artistic, Holistic and Conceptual modes.

Dr Kobus Neethling is the President of the South African Creativity Foundation. In 1998 he received “The Distinguished Leader Award” from the International Creative Problem Solving Institute and the Creative Education Foundation: The most prestigious creativity award in the world.

He is also the founder and Director of the South African Creativity Foundation and the Kobus Neethling Group. He holds 6 University degrees (Cape Town, Potchefstroom and Georgia USA), including two Master’s Degrees, a Doctorate and a Post Doctorate (Cum Laude). 

Update 2011: Sadly, the link about Dr Kobus Neethling doesn’t work anymore.

Please click on the link here to take your test to discover which part of your brain is dominant!
http://library.thinkquest.org/C0110299/interact/interact.php?brain_test

“Brain” quotes

“Genius is the ability to avoid work by doing it right the first time.”
— old saying

“The real question is not whether machines think but whether men do.”
— B.F. Skinner

“Improvement makes straight roads;
but the crooked roads without improvement are roads of genius.”
— William Blake [1757–1827]

“If the brain were so simple we could understand it,
[then] we would be so simple [that] we couldn’t.”
— Lyall Watson

“Most people would sooner die than think. In fact, they do.”
— Bertrand Russell [1872-1970]

“Geniuses are like thunderstorms. They go against the wind,
terrify people, cleanse the air.”
— Søren Kierkegaard [1813-55]

“When a true genius appears in this world, you may know him by this
sign, that the dunces are all in confederacy against him.”
— Jonathan Swift [1667–1745]

“The first and last thing required of genius is the love of truth.”
— Johann Wolfgang von Goethe [1749-1832]

“Some superior minds are unrecognized because there is no standard
by which to weigh them.”
— Joseph Joubert

“A genius is one who can do anything except make a living.”
— Joey Adams

“There’s nothing as stupid as an educated man,
if you get him off the thing that he is educated in.”
— Will Rogers [1879-1935]

“Talent, lying in the understanding, is often inherited;
genius, being the action of reason or imagination, rarely or never.”
— Samuel T. Coleridge [1772-1834]
Source: http://www.genordell.com/stores/maison/thinking.htm

Paintings from Picasso’s Blue and Rose Period are my favourites and I’ve uploaded some of my favourites here..

Picasso…Leaning Harlequin–1901

Picasso…Wounded bird and cat — 1938

Picasso…Le Gourmet from the Blue Period — 1901

This next article is about the brain…from the new scientist. The link will open in a new window.

http://www.newscientist.com/channel/being-human/brain/dn9969

The Human Brain – With one hundred billion nerve cells, the complexity is mind-boggling. Learn more in our cutting edge special report. The brain is the most complex organ in the human body. It produces our every thought, action, memory, feeling and experience of the world. This jelly-like mass of tissue, weighing in at around 1.4 kilograms, contains a staggering one hundred billion nerve cells, or neurons.

The complexity of the connectivity between these cells is mind-boggling. Each neuron can make contact with thousands or even tens of thousands of others, via tiny structures called synapses. Our brains form a million new connections for every second of our lives. The pattern and strength of the connections is constantly changing and no two brains are alike. It is in these changing connections that memories are stored, habits learned and personalities shaped, by reinforcing certain patterns of brain activity, and losing others.

Grey matter
While people often speak of their “grey matter”, the brain also contains white matter. The grey matter is the cell bodies of the neurons, while the white matter is the branching network of thread-like tendrils – called dendrites and axons – that spread out from the cell bodies to connect to other neurons.

But the brain also has another, even more numerous type of cell, called glial cells. These outnumber neurons ten times over. Once thought to be support cells, they are now known to amplify neural signals and to be as important as neurons in mental calculations. There are many different types of neuron, only one of which is unique to humans and the other great apes, the so called spindle cells.

Brain structure is shaped partly by genes, but largely by experience. Only relatively recently it was discovered that new brain cells are being born throughout our lives – a process called neurogenesis. The brain has bursts of growth and then periods of consolidation, when excess connections are pruned. The most notable bursts are in the first two or three years of life, during puberty, and also a final burst in young adulthood.

How a brain ages also depends on genes and lifestyle too. Exercising the brain and giving it the right diet can be just as important as it is for the rest of the body.

Chemical messengers
The neurons in our brains communicate in a variety of ways. Signals pass between them by the release and capture of neurotransmitter and neuromodulator chemicals, such as glutamate, dopamine, acetylcholine, noradrenalin, serotonin and endorphins.

Some neurochemicals work in the synapse, passing specific messages from release sites to collection sites, called receptors. Others also spread their influence more widely, like a radio signal, making whole brain regions more or less sensitive.

These neurochemicals are so important that deficiencies in them are linked to certain diseases. For example, a loss of dopamine in the basal ganglia, which control movements, leads to Parkinson’s disease. It can also increase susceptibility to addiction because it mediates our sensations of reward and pleasure.

Similarly, a deficiency in serotonin, used by regions involved in emotion, can be linked to depression or mood disorders, and the loss of acetylcholine in the cerebral cortex is characteristic of Alzheimer’s disease.

Brain scanning
Within individual neurons, signals are formed by electrochemical pulses. Collectively, this electrical activity can be detected outside the scalp by an electroencephalogram (EEG).

These signals have wave-like patterns, which scientists classify from alpha (common while we are relaxing or sleeping), through to gamma (active thought). When this activity goes awry, it is called a seizure. Some researchers think that synchronising the activity in different brain regions is important in perception.

Other ways of imaging brain activity are indirect. Functional magnetic resonance imaging (fMRI) or positron emission tomography (PET) monitor blood flow. MRI scans, computed tomography (CT) scans and diffusion tensor images (DTI) use the magnetic signatures of different tissues, X-ray absorption, or the movement of water molecules in those tissues, to image the brain.

These scanning techniques have revealed which parts of the brain are associated with which functions. Examples include activity related to sensations, movement, libido, choices, regrets, motivations and even racism. However, some experts argue that we put too much trust in these results and that they raise privacy issues.

Before scanning techniques were common, researchers relied on patients with brain damage caused by strokes, head injuries or illnesses, to determine which brain areas are required for certain functions. This approach exposed the regions connected to emotions, dreams, memory, language and perception and to even more enigmatic events, such as religious or “paranormal” experiences.

One famous example was the case of Phineas Gage, a 19th century railroad worker who lost part of the front of his brain when a 1-metre-long iron pole was blasted through his head during an explosion. He recovered physically, but was left with permanent changes to his personality, showing for the first time that specific brain regions are linked to different processes.

Structure in mind
The most obvious anatomical feature of our brains is the undulating surfac of the cerebrum – the deep clefts are known as sulci and its folds are gyri. The cerebrum is the largest part of our brain and is largely made up of the two cerebral hemispheres. It is the most evolutionarily recent brain structure, dealing with more complex cognitive brain activities.

It is often said that the right hemisphere is more creative and emotional and the left deals with logic, but the reality is more complex. Nonetheless, the sides do have some specialisations, with the left dealing with speech and language, the right with spatial and body awareness.

Further anatomical divisions of the cerebral hemispheres are the occipital lobe at the back, devoted to vision, and the parietal lobe above that, dealing with movement, position, orientation and calculation.

Behind the ears and temples lie the temporal lobes, dealing with sound and speech comprehension and some aspects of memory. And to the fore are the frontal and prefrontal lobes, often considered the most highly developed and most “human” of regions, dealing with the most complex thought, decision making, planning, conceptualising, attention control and working memory. They also deal with complex social emotions such as regret, morality and empathy.

Another way to classify the regions is as sensory cortex and motor cortex, controlling incoming information, and outgoing behaviour respectively.

Below the cerebral hemispheres, but still referred to as part of the forebrain, is the cingulate cortex, which deals with directing behaviour and pain. And beneath this lies the corpus callosum, which connects the two sides of the brain. Other important areas of the forebrain are the basal ganglia, responsible for movement, motivation and reward.

Urges and appetites
Beneath the forebrain lie more primitive brain regions. The limbic system, common to all mammals, deals with urges and appetites. Emotions are most closely linked with structures called the amygdala, caudate nucleus and putamen. Also in the limbic brain are the hippocampus – vital for forming new memories; the thalamus – a kind of sensory relay station; and the hypothalamus, which regulates bodily functions via hormone release from the pituitary gland.

The back of the brain has a highly convoluted and folded swelling called the cerebellum, which stores patterns of movement, habits and repeated tasks – things we can do without thinking about them.

The most primitive parts, the midbrain and brain stem, control the bodily functions we have no conscious control of, such as breathing, heart rate, blood pressure, sleep patterns, and so on. They also control signals that pass between the brain and the rest of the body, through the spinal cord.

Though we have discovered an enormous amount about the brain, huge and crucial mysteries remain. One of the most important is how does the brain produces our conscious experiences?

The vast majority of the brain’s activity is subconscious. But our conscious thoughts, sensations and perceptions – what define us as humans – cannot yet be explained in terms of brain activity.

After a discussion about study methods on one of the Afrikaans blogs, I’ve decided to add this info here as it relates to your brain too. This is a study method I taught 12 year old children. This is only one method of many others. A popular method is mind-maps too. All depends on the individual and the style he prefers.

P Q R S T

(I originally found this method in Atkinson, R. L., Atkinson, R. C., Smith, E. E., & Bem, D. J. (1993). Introduction to Psychology. Fort Worth, TX: Harcourt Brace, although that may not be the original source.)
PREVIEW
Skim the headings of the entire chapter. Your most important goal is to find out how the chapter is organized.
If the major terms in the headings are unfamiliar – look them up
The same material could be organized more than one way. If the way it is organized helps you to remember the main topics, then use that organization. If you notice some other way it could have been organized that makes more sense to you, then use that method.
QUESTION
Turn the subheadings under the major headings into questions that you expect to be answered in that part of the text.
READ
Try to see if the questions you anticipated are answered. Reflect on what you read; put it in your own words. Try to connect what you are reading to things you already know. Don’t mark or highlight words or passages as you come to them the first time. Wait until you have reached the end of a small section, maybe a paragraph or two and look back to decide if there is anything there that you probably wouldn’t remember without highlighting it. Try to learn through trial and error how much marking is the minimum you need to do to remember all the material.
SELF-RECITATION
This is the most critical part.
After reading a small section, perhaps a page or two CLOSE THE BOOK and try to write down the main ideas and as many details as you can, and then check yourself.
Put the main ideas and details in your own words; don’t just memorize the exact words in the text.
When you check, look for important things you omitted or got wrong.
Do it again. Do it as many times as you need to until you can close the book and reproduce the material accurately, but meaningfully, not just by rote.
Once you can do that immediately after closing the book, then start trying to do it after being away from the book for a while. First short gaps, like an hour, then longer gaps, like a day or two.
This is hard work. You might start by first trying to be able to make just a skeletal outline and build up the ability to fill in details.
Develop your own mnemonics for memorizing major points, or any details that you find confusing.
TEST
After some time has passed, try to reproduce the material as you did above. The key here is that you must give yourself enough time to forget some of the material so that you are forced to really re-generate the material. Re-generate means that you use your mnemonics and connections from the easier-to-remember main ideas to pull up the details.
Research has shown that reflection, spacing your study, and organizing all improve learning significantly.

Source:  http://faculty.kutztown.edu/rryan/CLASSES/Genpsyc/pqrst.html

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