Tuesday, January 27, 2009

SHICHIDA PRACTICES

Some of the practices and goals that characterize the Shichida Method founded by Dr Shichida Makoto of the Shichida Academy are:

visual imaging: images are flashed at speed of half a second, to bring out the right-brained speed recall. This is done many times throughout every sessions. Subject-matter varies considerably (they say content doesn’t matter as much as development of the ability)

memorization of stories — practice is done on 100 picture cue cards shown as story is read. The stories are quite ridiculous and difficult to memorize and change over the weeks. But kids learn to memorize at first 10, then 20, then 30 and up to 1,000 cards. By two terms, 90 per cent recall is aimed at. Kids can recall which picture falls in which square, or by word cue, or in any manner of recall. This appears to be very effective, I’ve seen most kids excel at this over time. This trains the kids to associate words with images in their heads, and eventually they see pictures instead of words in their heads and can achieve perfect recall of books they’ve read.

memorization of numbers — the kids practice memorization of a thousand images linked to numbers. Eventually they will be able to recall any number combination using image-association.

speed-reading and speed-listening is done every lesson


memorization of several hundred mandala patterns, Dr Shichida says there is a finite number of shapes that make up everything in nature and the universe, once the child has seen every combination, he can spot and recall all the patterns in science and nature. This seems to be rather fascinating as well. The children are flashed in a few seconds and must recall all the colors in the pattern flashed.

– Kids are flashed different shapes and color patterns on a grid or in a
random picture and must reproduce them in a blank format. Sometimes they are asked to reproduce a line drawing of an animal or even a complicated maze. These are again amazing activities with great results. My two year old started with 3 patterns and colors to progressively difficult combinations and can do them. My 6 year old has to contend with 20 or more at a flash, and has improved tremendously on this skill.

Mathematical calculation skills – there is an intricate 65 day math course that you must do with your kid — it is repeated about three times to achieve speed-calculation skills.

– There are many spatial puzzles to be solved in a very short space of time during each session. These are very challenging. They are reinforced through the worksheets taken home. My two-year old has 30-day worksheets as well as my 6 yr old. The worksheets are very varied, from mazes, to puzzles, to logic exercises, to math. They work on skills incrementally as well.

– Others: Speed listening, speed-reading; perfect pitch skills training; the basic sounds of many foreign languages are taught in songs, proverbs, flashcards during the sessions as well. These will not help the child master any language but will give the child an ear for most world languages should he or she choose to pick it up later. Language activities are also often incorporated — riddles, tongue-twisters, excellent selection of poetry.

– For my 6 yr old, one science experiment is demonstrated every now and then.

– Exercise of Imagination (this seems to be a key component and is never compromised upon, every lesson starts with this. Apparently, exercising the imagination is a trigger to activating the right-brain’s abilities.

– One very unconventional activity is the ESP (guessing) game that is also never compromised upon. Even 2 year olds get into the habit of doing these games very well. Dr Shichida’s premise is that everything in the universe boils down to some form of wave energy, so energy-wave reading is a key skill that all students are expected to perfect. The lessons, following the imagery/imagination exercises, incorporate ESP activities. I can tell you that many a parent starts out a skeptic and is quite converted at the end of the course. For the past three lessons, all the students in my son’s class (including my son) achieved perfect scores in guessing matching cards in a set of 4’s (and my son has quite astounded me at home as well). My then two year old for the most part takes to the ESP games like a duck to water (the 2 year olds don’t work with cards though).

Shichida Lesson 1 (2 y/o)



Breathing Training:

  1. Draw a picture of an octopus without the tentacles. Paste thick woolen treads below as the tentacles. (If you want, you can laminate the octopus so that you can reuse it)

  1. Give your baby the octopus and show him how to BLOW. This will help him to breath better.

Sound Training:

  1. Use three small containers and put different things inside. Eg, paperclips, green beans and wooden blocks.

  1. Shake the three sounds and let your child listen to them. Repeat what they are as you shake.

  1. Afterward, give your child a card with drawings of the three things on them. To make it more interesting, you may want to add a FLAP on top to cover these three things.

  1. Shake one of the containers and ask your child to flip open the correct answer.

Sight Training

  1. Draw a colourful picture of something. (You could draw and octopus and use hanging paper clips and bells as the legs) Hang a bell next to it so that it produces a loud sound. Attach a handle at the back for easy holding if you want.

  1. Show your baby the picture and shake it so that his eyes are focused on the picture.

  1. Move the picture left, right, up, down horizontally or vertically. You can also move around in a zig zag manner just to let his eyes move around. This will work his eye muscles.


Language Training:

  1. Tell a story in English.
  2. Tell the same story in Chinese/Japanese.



Sing a song:

  1. Sing at normal speed
  2. Sing at half the speed (to help them remember)





Flash Cards:

  1. Prepare a series of flashcards with a theme. Eg, vehicles, fruits, foods, numbers, alphabets.
  2. Flash them quickly at your child. Show each picture only for two seconds and read out what it is as you flash it. You do not have to worry about getting tongue tied.
  3. Repeat and flash the pictures and read out again.

    NOTE: You can do so also for alphabets (Letters A-M, N-Z, Numbers 1-10, 11-20, Dots (1 small, 1 big, 2 small, 2 big.. etc)

Shape Sorting

  1. Give your child a picture filled with things of different shapes.
  2. Try to make sure that these shapes are removable and restickable (you can laminate your picture and paste Velcro on the picture and underneath the shapes)
  3. Tell your child about the different shapes and ask them to paste it back or pull it out.
  4. Repeat about 2-3 times for each individual shape. (Eg, circle, oval, parallelogram, trapezium, square, rectangle, triangle.

Intuition- Find the hexagon:

  1. Use two cards of the same size. One is a blank card. The other one has a particular shape (eg, a green hexagon).
  2. Turn the cards over and ask your child to feel it and find the hexagon.
  3. Repeat 2-3 times



Intuition- Find the insect:

  1. Draw a big bedroom slipper. Colour and laminate it.
  2. Prepare picture of three insects. Pick of of the insects and paste it behind the slipper.
  3. Tell a story. Use a big bedroom slipper and tell them that an insect has crawled behind the bedroom slipper.
  4. Show them the picture of the three insects and ask them to guess which insect it is.

Imagery- Under The Sea

  1. Prepare a picture of the sea. Prepare also a picture of a dolphin. Cut cut another set of dolphins and seashells.
  2. Show your child the picture of the sea and tell them that dolphins and seashells are from under the sea.
  3. Hide either the Dolphin or seashells behind the sea and send the image of the picture to your child.
  4. Show your child the picture of these two items and ask them to guess which item you hid behind the picture of the sea.

Sensory Play- Play Dough

  1. Roll play dough into a ball
  2. Press it and roll it into a long strip.
  3. Twirl it and make it into a ring

Science- Growth of a butterfly:

  1. Prepare a picture of a leaf, a Butterfly, an egg, a small caterpillar, a big caterpillar and a cacoon.
  2. Paste a Velcro strip on the leaf and at the back of all the various objects.
  3. Share the life story of a butterfly and how the butterfly will lay an egg on the leaf, the egg will become a small caterpillar, and the caterpillar will eat and become a big caterpillar and then change into a cocoon and in the end transform into a butterfly.
  4. As you share the story, stick the related item onto the leaf.
  5. Tell the story again and let your child stick it on.

Linking memory game

  1. The purpose of this game is to help your child improve their memory by linking things up. You can tell a story and link the things up in order. It does not have to be a logical story.
  2. Eg: if you had a picture of a crown, a tv, a hotel, a crab, a door. The story would go like this: This is the crown, given by the King of TV in a hotel and there is a crab next door.
  3. Repeat this story and ask your child to place the pictures in this order.
  4. Now turn the cards around so that the back (which is blank) is facing you and ask your child to pick out the hotel or the crab and see if they can remember where it should be.

Memory game: Hot stuff

  1. Show a picture of three hot cups of stuff. Milk, Water, Soup which is put in a table with three columns in this particular order
  2. Now, give them an empty Card with the table and pass them a picture of a glass of milk, a glass of water and a bowl of soup.
  3. Ask your child to place them in the right order inside the columns.
  4. If your child is unable to choose. You can give him two choices and ask him to point.


Memory game: Little Froggie

  1. Show a picture of 3 Little Froggies in bed with three different expressions. The expressions are in the following order- Smiling, crying and laughing.
  2. Now give your child a picture of three beds with slits at the top.
  3. Give them three heads of froggies with different expressions and ask them to place the heads at the correct bed.
  4. You can ask them to point while you help them with the slotting in.

Colours: Fly the aeroplane

  1. Give your child a box full of coloured aeroplanes.
  2. Prepare 5 coloured containers and place it in front of him.
  3. Let your child match the colours and fly the aeroplane into the container.
    PS: For the container, you could just use a file like an envelope.

Intuition/ Memory Game: Guess which picture I show you

  1. Prepare two similar looking pictures.
  2. Show your child one of them.
  3. Take out the two pics and ask them to guess which one was it that you showed them.(dun be surprised, they get it right VERY OFTEN!)

Bring the animals to their mamas

  1. Show a picture with 8 animals.
  2. Give your child 8 baby animals and ask them to bring the animals to their mothers.
  3. Ask them to Velcro stick the babies next to the mummies.
  4. Once done, ask them to take out the babies by saying the name of the animal.

Art work: Stick the windows

  1. Use a coloured paper and draw a train with two carriages.
  2. Draw rectangles as the windows.
  3. Give your child some white stickers and let them stick on the windows themselves.

Writing

  1. Prepare a practice sheet for your child.
  2. Laminate the practice sheet
  3. Give your child a whiteboard marker (non toxic) and hold their hands to help them write out the numbers on the practice sheet.
  4. One number at a time please. Eg, just practice to write the number 2.
  5. After that, the child is free to draw on the practice sheet.
  6. Wipe clean and reuse it again.

Monday, January 26, 2009

The 89 Cardinal Facts For Making Any Baby Into A Superb Human Being

These were lecture notes given to me at the Institute, and I am reproducing these without their permission, and I claim no credit from this whatsoever except the fact that I have typed them out myself and added the links to IAHP and credits to Glenn Doman and the Institute.

I believe these are very simple easy to read, yet vital to any understanding of what Glenn and the Institute is trying to teach us, and what some parents here might agree with.

There again, I am only speculating, and I speak for no one but myself really.

I also attach it as a MS Word file, so you can easily print it out.

Here's what the 89 facts...says.

===========================================
The 89 Cardinal Facts For Making Any Baby Into A Superb Human Being
Written by :
Glenn Doman,
The Institutes for the Achievement of Human Potential
http://www.iahp.org

AN INITIAL SUMMARY OF THE FACTS

1. The world has looked at brain growth and development as if it were a predestined and unchangeable fact, instead, brain growth and development is a dynamic and ever-changing process.

2. This is a process that can be stopped. This is a process that can be slowed. But most significantly, this is a process that can be speeded.

3. All that we do to speed the process is to give kids visual, auditory, and tactile information with increased frequency, intensity, and duration in recognition of the orderly way in which the human brain grows.

4. Heredity and environment are springboards, not prison cells.

5. Our individual genetic potential is that of the human race.

6. Our individual genetic potential is that of Leonardo, Shakespeare, Mozart, Michelangelo, Edison, and Einstein.

7. Our individual genetic potential is not that of our parents or grandparents.

8. We are primarily members of the human race and only incidentally Lees, Aisens, Domans, Kerrs, or van Dyks.

9. All intelligence is a product of the environment.

10. High intelligence is a product of the environment.

11. Low intelligence is a product of the environment.

12. The wildly intellectual differences in us are a result of the wildly wide differences in the environments in which we are raised.

13. It is the environment of poverty, not the genetics of poverty, which begets poverty.

14. It is the environment of knowledge which begets knowledge. There is no genetics of poverty or of knowledge. If there were, how could we explain the single individual who escapes poverty or comes to knowledge.

15. Children are not dehydrated adults.

16. All games were invented by adults to get rid of kids.

17. All toys were invented by adults to get rid of kids.

18. Tiny children make tools, not toys.

19. Kids prefer patty-cake to solitary confinement.

20. Kids prefer Greek to patty-cake.

21. Tiny children believe that it is their job to grow up.

22. Tiny children want to grow up right now.

23. Tiny children have a rage to learn.

24. All tiny kids have a rage to learn because learning is a survival skill.

25. Tiny children want to learn about everything and they want to learn right now.

26. Tiny kids would rather learn than eat.

27. Babies would much rather learn than play.

28. All children are linguistic geniuses.

29. Tiny kids learn an entire foreign language between birth and 24 months.

30. It is easier to teach a one-year-old a foreign language than it is to teach a seven-year-old.

31. It is easier to teach a one-year-old to read than it is to teach a seven-year-old.

32. The first six years of life are the genesis of genius.

33. The ability to take in raw facts is an inverse function of age.

34. Tiny kids learn more fact for fact prior to three years of age than they learn for the rest of their lives.

35. It is easy to make a baby a genius prior to six years of age.

36. It is extremely difficult to make a child a genius after six years of age.

37. Education begins at six, learning begins at birth or earlier.

38. Learning is not synonymous with education.

39. Function determines structure.

40. The brain grows by use.

41. Intelligence is the result of thinking.

42. Man is intelligent because he uses his brain.

43. When you improve one function of the brain you improve all functions to some degree.

44. First there is a need, and then there is a facility.

45. All humans are born with a greater potential that Leonardo ever used.

46. The human brain contains more than 12 billion functioning neurons.

47. We presently use a minute percentage of those 10 billion cells.

48. If we learned 1,000 facts per hour, 24 hours a day, for 100 years, we would use up only 876,000,000 cells.

49. The brain is the only container that the more you put into it, the more it will hold.

50. You can teach a baby anything that you can present in an honest and factual way.

51. It is easier to teach a one-year-old any set of facts than it is to teach a seven-year-old.

52. Facts are the base on which intelligence is built.

53. Without facts there can be no intelligence.

54. Individual facts are bits of intelligence.

55. The first requirement for intelligence is the ability to take in facts.

56. The second requirement for intelligence is the ability to store facts.

57. The third requirement for intelligence is the ability to retrieve stored facts as useful knowledge.

58. The fourth requirement for intelligence is the ability to use facts, knowledge, and laws to successfully solve problems of increasing importance.

59. The fifth requirement for intelligence is the ability to combine and permutate facts and knowledge to discover new facts and laws.

60. The first step in multiplying your baby's intelligence is to feed your baby with a huge number of clear facts.

61. The second step in multiplying your baby's intelligence is to present the facts frequently to insure their permanent storage.

62. The third step in multiplying your baby's intelligence is to provide frequent opportunity to retrieve the facts for useful purposes.

63. The fourth step in multiplying your tiny baby's intelligence is to present your tiny kid with ever increasing opportunity to solve problems of increasing importance.

64. The fifth step in multiplying your baby's intelligence is to provide your tiny kid with sets of related facts so that the baby can combine and permute the facts in the greatest number of useful ways.

65. Mothers were the only teachers from prehistoric times until the Age of Reason.

66. Mothers brought us from the caves to the Age of Reason.

67. Until the Age of Reason, there were no pediatricians, child psychologists, or teachers of children.

68. Mothers brought us from clubs to the Age of Reason.

69. Professionals brought us from the Age of Reason to the Atomic Age.

70. It is difficult to believe that the professionals will take us as far in the next 10,000 years as mothers have taken us in the past 10,000 years.

71. Mothers are the best teachers.

72. Mothers and kids are the most dynamic learning combination possible.

73. The process of learning is a joyous and intimate one for mother and child.

74. It is good, not bad, to be a genius.

75. Geniuses are made, not born.

76. The process of creating a genius is a joyous one.

77. All children should be geniuses.

78. Tiny kids learn facts at a tremendous rate which staggers the adult imagination.

79. If you teach a tiny kid the facts he will discover the laws.

80. If you teach a tiny kid the laws he cannot as a result discover the facts.

81. Definition of science.

82. Children have five laboratory tests available to them: To see, to hear, to feel, to taste, and to smell. They use these lab tests superbly.

83. Children have superb attention, interest, and concentration.

84. Tiny children are scientists.

85. Tiny kids use the exact same method of solving problems as do scientists.

86. Tiny children have the same objectives as do scientists.

87. Tiny children ask the exact same questions as scientists.

88. It is easier to teach a one-year-old math than it is to teach a seven-year-old.

89. Formulae

1. Formula for average intelligence is:

A.I. = F.I. + E.S.


2. Formula for total intelligence is:

T.I. = V.I. + Aud.I. + Tac.I. + Mob.I. + L.I. + Man.I, 6

3. Formula for potential intelligence:

P.I. = T.I. + E.E.S + E.P.S.

4. Formula for genius:

Genius = P.I. + M.E.E.S. + M.E.P.S.

DEFINITIONS OF INTELLIGENCE ABBREVIATIONS

V.I. = Visual Intelligence
Aud. 1. = Auditory Intelligence
Tac. I. = Tactile Intelligence
Mob. I. = Mobility Intelligence
L. I. = Language Intelligence
Man. 1. = Manual Intelligence
T. I. = Total Intelligence
A. I. = Average Intelligence
F. I. = Functional Intelligence
E. S. = Environmental Stimulation (accidental)
P. I. = Potential Intelligence
E. E. S. = Early Environmental Stimulation
E. P. S. = Early Parental Stimulation
M. E. E. S. = Maximum Early Environmental Stimulation
M. E. P. S. = Maximum Early Parental Stimulation

7 Secrets of Highly Successful Kids

1. Choose a Good Role Model

2. Be Organised

3. Make the Most of What You've Got

4. Stick With It and Try Your Hardest

5. Don't Be Afraid to Try New Things

6. Be A Loyal Friend

7. Be a Team Player

SHICHIDA MATERIALS

Maths Flashcards

Just uploaded eye training charts similar to what Sensei uses in class but with numbers 1-100. This exercise serves 3 purposes - eye training, hand-eye coordination as well as recognizing number sequence.

Also uploaded +1 to +10 Thomas and Friends Addition Charts. Goes well with the Shichida Addition Song CD. This my work around my son's interest as he's been fascinated by trains since he was 6 months old.


Linking Memory Flashcards

Your child's Right Brain has the ability to recall entire elements at a glance. Here's how you can use Linking Memory method to stimulate this ability:

For Babies:

Show 2 picture cards, eg. 'apple' and 'car'. Make up a story, eg. 'The apple jumped over the car'. Put the cards down. Once your child is able to tell or point to the correct cards when you ask, increase number of cards to 3, then 4 ensuring that they are always in the right order.

For 2yrs and above:

At this age your child is ready to memorize 50 cards per set in the correct order and something amazing will happen. He/She will be able to name the cards at a glance without the help of pictures. It is not necessary to show 50 individuals cards now. A chart of 50 pictures is fine. Either you or your child will point to the pictures as you read the storyline or while listening to the Linking Memory CD.

When my son was about 2 years old, I contemplated quitting Shichida classes. He had been in the program since 3 months old and we weren't seeing results. He wasn't even interested in 6 LM pictures but at 2yrs 3 mths, something miraculous happened. He could name all 50 pictures in Linking Memory Set 4 in the correct order without looking at the them. He went on to recite 150 pictures in LM Sets 4, 5 & 6 continuously 2 months later. That renewed my confidence in the system and thus I spent more time creating home practice materials.

At 4 yrs old now, he is currently doing LM Set 1C, 2C & 3C. Sensei has begun to time their recital. One of the kids in my son's class is super fast and can recite 150 pictures in about a minute. She mispronounces most of them but when you look at her during the recital, you can see her eyes rolling and that is a sign that she is seeing the pictures in her mind vividly.

We cannot share the LM Sets and CDs from Shichida but here are some home-made materials contributed by parents.

SHICHIDA VS GD

Stimulating Right Brain
------------------------------
Shichida method (SM) emphasizes the right brain stimulation through the 7 key components: Alpha Wave Relaxation, Eye Exercises, PhotoEyeplay, Mental Imaging, Observation Training, Memory Linking, and Photographic Memory & Speed Reading. GD also involves stimulating of right brain through the physical program.

Methodology
--------------
Both methods using flash card. The flash speed is concern for both methods, the parents must flash as fast as possible. The intention for GD to flash fast is to hold the child's attention while according to SM, if you flash real fast, the left brain can not catch up and the right brain will pick up automatically (activated). Anyway, both methods will achieve the same abilities for your child: encyclopedic knowledge and activate the right brain.

GD emphasizes on the frequency (repetition) which according to SM is a left brain function; SM emphasizes on large amount of input, for example for the bits program, you can show as many cards as you want as long as the child is interested (each session can contain as many as 20, 30, 40 ...) while for GD, one session contains 5 to 10 bits and there should be 3 sessions per day.

Reading Program and Maths Program
-------------------------------------------
For GD, read his book "How to Teach Your Baby To Read" and follow the 5 steps to teach your baby to read and "How To Teach Your Baby Math".

For SM, the Shichida 65 days Maths Program is quite similar to GD (flash dot cards). The difference between the two is on the frequency for flashing each card and the timing for introducing the arithmetic function. Beside this, read his book "How To Develop Your Baby To Read, Write and Calculate Ability" which introduce different methods to develop the interest of reading and to recognize word through different kind of games and activities. I found the activities very useful and efficient to develop the child ability to read, write and calculate (0-6). This is not cover in GD book.

Extra Sensory Perception (ESP)
-------------------------------------
SM involves the ESP training while GD doesn't. The ESP training involves all sorts of games for example what's in the box, guessing what's hidden and etc. Photographic Memory and Memory linking - nonsensical story linking system which encourages the brain to visualize each component in a fun and upbeat way!

Above all these similarities and differences, both methods MUST require the parents to show the child your love, your affection, encouraging them, praise and support them. And...ENJOY what you are both doing.

Computer-Like Math Skills Learned in Infancy!


Can infants learn math a few months after they are born? Yes, according to early childhood specialist Dr. Makoto Shichida. Shichida tells how infants learn by absorbing information through the right brain. He challenges the traditional belief that math is primarily a left brain activity by proving that children can learn to calculate subconsciously through the right brain.

Japanese studies have shown rapid calculation abilities stem from the brain's right hemisphere. In his book Right Brain Education In infancy Shichida cites a study at the Nippon Medical Center on Yuka Hatano who won world titles for mentally calculating sixteen digit problems faster than a calculator. Professor Yoshiya Shinagawa studied Ms. Hatano by PET scan while she was orally doing mental arithmetic. Shinagawa noted that the rear part of the right brain that governs visual functions was used.

The answers appear on the screen of the mind! These so-called math geniuses don't make conscious mathematical calculations! Answers automatically rise from the subconscious, where they are calculated faster than a calculator! Through the right brain, or image brain, the person sees a picture of the right answer. This function of the right brain is also exercised in people who have photographic memory. Shichida mentions 18th-century mathematician and physicist Leonard Euler who memorized books while ruffling through the pages and correctly answered 15 digit math problems in a second. Mentally handicapped people have also demonstrated this ability, baffling scientists. Shichida gives the example of Flure, a blind, mentally retarded man who spent his life in a French mental institution at the beginning of the century. Flure could answer complex math questions in less than 30 seconds and give perfect 20 digit answers.

Today, Shichida proves these extraordinary abilities can be developed in ordinary children, given the right training. Shichida uses dot cards and fact cards to stimulate 'lightning-rapid' calculating ability and photographic memory, which he believes are normal functions of the right brain. These flash cards are rapidly flashed in front of infants and young children who register the information subconsciously. Shichida explains that unlike the left brain, the right brain absorbs information very quickly.

In his book, Right Brain Education in Infancy, Shichida provides many examples of children who excel at calculating at a very early age, having been shown dot flash cards over a period of time. One mother witnesses her son's progress. "I've been teaching him all kinds of knowledge with homemade flash cards and charts that I placed in my house since his birth. He started answering mathematical problems in writing at age two and a half years old. He has no problem solving the four rules of arithmetic in four to six digits."

Lightning-rapid calculating ability is stimulated with dot flash cards, where dots replace numerals. "We took up dots when my son was two months old," says another mother. "Since he could not sit up by himself yet, I showed the cards to him while he was lying on his back. I was not sure if he understood what I was doing with him, but I kept on showing the cards as one of our games. When he was five months old, I showed him five addition problems using dots, then I tested him by giving the problem 48 + 29. I held up two answer cards 77 and 78. He tapped the card with the right answer--77. Then, I showed him only five subtraction problems and tested him. He gave me a correct answer again. I was totally amazed. Seeing my own son master addition and subtraction in a matter of ten seconds. I felt as if I was watching a magic trick. In this way, he was able to master the four rules of arithmetic by the age of six months."

Teaching your child with flashcards:
1) Experts agree that flashcards should be shown quickly (1 card per second). Presenting information quickly triggers the right brain into action!

2) Sessions should be brief but they can be frequent.

3) Flashcards should be fun and children shouldn't be forced. When children are pressured against their will resistance shuts down right brain learning.

4) Parents need to be relaxed and have fun with the process. Love is a key ingredient!

Shichida and Doman differ somewhat in their methods. Doman uses repetition (left brain), while Shichida does not (right brain.) You may want to experiment or try a combination of both, a whole brain approach.

Glenn Doman's book
How to Teach Your Baby Math gives detailed instructions on using dot cards. You can download Math Diamonds and use them in the same way that you would use dots.

Waking the Right Brain- A New Approach to Pre-school Education


"Mouri wears purple clothes and has blonde hair that shines like the sun. She has beautiful purple eyes, and her small body is only two centimeters tall. Mouri was born on July 15, the day my carefully tended morning glory first blossomed. . . ." This is nine-year-old Fumati Kasumi's story of her warm friendship with the morning glory fairy, a story which won Japan's Kikuchi Kan Prize for works of fiction by primary- and middle-school students.

Fumati Kasumi was a student in a Shichida School. This franchise of more than 300 schools is known throughout Japan for its unique method of "right-brain education." The method has fostered lively imaginations in many Japanese children. Shichida Makato, the franchise's founder, is the author of Super Brain Revolution, a Japanese best-seller. While the book has sold well here in Taiwan, it has also stirred up a great deal of controversy. Nonetheless, many attended the lectures presented by Shichida last October on his second visit to Taiwan, and a number of these attendees have since established experimental right-brain development classes.

What is "right-brain education"? Does it have anything to contribute to pre-school education in Taiwan? Should parents consider it for their children?

Su Lee-hui began teaching at a kindergarten in eastern Taipei at the start of last semester. On one Friday afternoon, the children sat in long rows, eight to a table, looking forward to a different kind of class. And Su, their teacher for this "different" class, delivered one, pulling out some pretty animal cards for a game. Everyone was given five different cards which were then laid out on the table in any order the children liked. After 10 seconds, the cards were turned over. A child would then try to recall the order in which the five animals had been arranged. The kids had a great time.

Last year, Su Lee-hui, a pre-school educator for more than 20 years now, retired from her position as director of a kindergarten. She then took a teacher training course on the "right-brain revolution" offered by the China Productivity Center last October. Su now teaches right-brain education as a volunteer at three different schools. "Kids love this class. They want to keep on playing even after it's over." Su says the memory game described above teaches children concentration and observation. After several months of experimentation, Su has come to the conclusion that such right-brain educational techniques are worthwhile.


The discovery of the right brain

The right-brain concept first began to attract widespread interest when Dr. Roger Sperry of the California Institute of Technology won a Nobel Prize for his work on the functions of the brain's hemispheres. Since then, the concept has been utilized in areas as diverse as education, business and medicine.

After years of research on "split-brain" epileptics (epileptics whose corpus collosum-a neural structure linking the two sides of the brain-has been cut to limit seizures to one side of their brain), Sperry discovered that the left brain is responsible for language, logical thinking and analysis. The right brain, on the other hand, seems to be involved with images, imagination and intuition.

The book The Right Brain was published at the same time. Translated into Japanese, it opened the eyes of pre-school educator Shichida Makato. He began investigating the application of right-brain functions to pre-school education, and developed a right-brain oriented teaching method.

Casper Shih, a former head of the China Productivity Center, was the first to invite Shichida to give lectures in Taiwan. Shih himself has applied the right-brain concept to the commercial sphere. In the ideas about "business culture" that Shih put forward a number of years ago, he suggested that people are changed by emotional stimuli, not rational argument. This is very much in keeping with the right-brain concept. And in his "right-brain leadership" concept, put forward two years ago, Shih takes his approach a step further, proposing EQ-based, creative management.


neffective thinking?

Almost 80% of the world's people have a more developed left brain. Why is this so? Professor Chen Lung-an, director of the Creative Thinking Educational Center at the Taipei Municipal Teachers' College, says that this is related to the superiority of the left brain in handling language and logical thinking. Chen cites the game of bridge as an example. He says that when you are about to play a card in bridge, your right brain goes running off in a thousand directions at once, thinking laterally. This sort of thinking is not appropriate to this situation, and the left brain takes over, assembling a logical train of thought. It sorts through the cards available, considers which has the greatest chance of winning the trick, what will happen if one's partner plays such and such a card, and what will happen if he does not, slowly tracing through the many possibilities to come up with a play. Similarly, in most of our thinking and learning in daily life, the left brain's speed and efficiency mean that the right brain often has no chance to do anything.

Other factors are also detrimental to right brain development. There are our years of utilitarian education, with its emphasis on mathematics, language, logic and analysis, and its tendency to ignore the arts, music and creativity. There are parental pressures to become doctors and lawyers and scientists rather than poets and artists. And there is the world itself, which requires us to do more left-brain thinking than right. Under these circumstances, our left brains become more and more developed while our right brains atrophy, metaphorically speaking, from under-use.

After Sperry discovered the right brain's capabilities, a number of Taiwanese in numerous different fields began to take note. For example, Chen Lung-an, whose academic research is in "creative thinking," has proposed a methodology for developing children's creativity. Chen stresses the utilization of imagination and lateral thinking, stating that this is a form of right-brain exercise. Meanwhile, some people in the commercial sphere advocate using breathing and meditation to change your moods or the direction of your thinking. Even cram schools have gotten into the act, taking advantage of the right brain's affinity for images by promoting the concept of "mind maps"-taking notes in a pictorial or diagrammatic format rather than the traditional line upon line of text.



Four major functions of the right brain

To enliven your right brain and increase your creativity, most people working in this field recommend bringing your feelings and imagination into play when observing and contemplating the physical world. But Shichida Makato stresses that in addition to utilizing the right brain's image processing and imaginative capabilities, we must also develop its memory and wave-generating functions.

In his book, Shichida writes that the right brain has a "high-speed, high-capacity memory" mechanism. He explains that the left brain turns data from the external world into language. This requires "sequential processing," wherein data is processed one bit at a time. It is a time-consuming activity. The right brain, on the other hand, processes information very quickly as images or pictures. The left and right brain also differ in the capacity of their memories, and the period of time for which information can be stored. According to Shichida Makato, the left brain is continuously dumping old information to make room for new, but right-brain memory is never deleted. He thus explains "photographic memory" as a right brain phenomenon.

A second function of the right brain is the combination of memory with imagination to produce "structures which transcend our personal experience and knowledge."

Chen Lung-an agrees that memory and creativity are intimately connected. In his view, creativity requires knowledge, experience and sufficient data. If you have a good memory, your mind will be able to provide you with an uninterrupted stream of data when you are trying to come up with something new.

According to Shichida, a third right-brain function is the production of waves which resonate with the universe.

He explains that brainwaves come in four varieties of respectively lower frequency-Beta, Alpha, Theta and Delta waves. Beta waves are generated by the brains of adults when fully awake. Alpha waves are produced by the brains of young children. Theta waves are generated as we enter sleep and while we dream. Delta waves are produced in deep sleep.

"The universe broadcasts at 7.5 Hz, just at the border between Alpha and Theta waves. Through meditation people can maintain their brainwaves on the same frequency as the universe. In theory, they can thus make themselves receptive to the power of the universe." Shichida says that with repeated practice and training with images, one's perceptions may become sharper. One may develop stronger intuition and even more adavnced capabilities such as the ability to see through solid objects, telepathy, telekinesis and ESP. The brains of embryos and infants produce waves of around 7.5 Hz. Therefore, the younger a child, the stronger his ESP.


Super-calculator

Shichida Makato believes that true creativity comes in the form of an image from the future. He cites the sources of inspiration of several famous creators as examples: Mozart is reported to have said, "I myself know not whence my scores surge forth. If I am but left undisturbed, inspiration springs forth without cease." And Mishimo Yukio once said, "When I write a book, the characters appear in my mind. All I have to do is note what they say. There's no need at all to think up a plot."

In addition to the three functions mentioned above, Shichida Makato enumerates a fourth-rapid automatic calculation. There are a great many five- and six-year-old children all over the world who can correctly multiply and divide five- and six-digit numbers in seconds. Shichida believes that this is an application of the right brain's fast calculation and imaging mechanisms. He has verified his supposition using data from Positron Emission Tomography (PET) testing of brainwaves. This data shows that the right brains of highly skilled abacus users are active when carrying out arithmetic operations. This contrasts with the rest of us, for whom the left brain is more active when doing arithmetic.


The mystery of instinct

Interestingly, the right brain is believed to possess extraordinary powers which have their origins in instincts which pre-date education and civilization. As early as 1975, brain specialists had discovered that the cerebral cortex, unique to primates, was responsible for intellectual activities such as language and reasoning. The limbic system lies below the cortex and pre-dates it. Sometimes called the "mammalian brain," it is involved in the expression of emotions. On the lowest level lies the brain stem, sometimes called the reptilian brain. It controls basic bodily functions such as breathing and heartbeat.

"Our use of language, invention of tools and development of reasoning capabilities have pushed the development of the brain and made us 'smarter.' But at the same time we have lost our ability to feel an earthquake coming, and our ability to recognize from the larger environment when fish and vegetables will be at their tastiest. . . ."

To create a balance between our human and animal minds, "We must bring the functions of the brain stem to life, especially those of its center-the diencephalon." Shichida Makato says that, strictly speaking, the development of the right brain is the development of the diencephalon of the brain's right hemisphere. In other words, it is the development of the deep, unconscious levels of the brain.


Imaging training

On the subject of activating the diencephalon, Shichida recommends "imaging training," success at which connects the human mind with the universal mind. The principle underlying this training is hypnotic suggestion.

In class, the children seat themselves in a circle. With quiet music playing in the background, their teacher softly tells the children to close their eyes, breathe deeply, then enter their imaginary world. They may imagine they are shopping in a department store, or that they are butterflies sipping nectar from a field of flowering rape. A different method is to first show the students a round, colored card and then have them imagine the color of the card changing. "After much practice, you can watch images change by themselves." Based on his many years of experience, Shichida says that children playing these kinds of games can immediately enter an imaginary world, and describe what they see and feel there.


Just the facts, please

Another interesting feature of Shichida Makato's classes is that they do not attempt to present principles underlying knowledge. Instead, they provide students with large volumes of raw data. The rationale is that when data is presented quickly, the left brain cannot keep up in its efforts to order data and turn it into language. Instead, it gives up and takes a break, allowing the right brain a chance to handle it. "After the right brain has taken in the data, the brain can search for patterns and systems on its own."

At an experimental class in Mucha, an English teacher flips through dozens of picture cards in one to two minutes. The children keep their gaze fixed on the cards as the teacher reads through them. According to Shichida, flipping through the cards in this way activates capacities inherent in the children's right brains. Once the right brain is activated, a student should be able to memorize large amounts of information quickly and easily.

A third method for activating the right brain involves other kinds of memory training. Shichida's curricula include games to teach "direct visual imaging," speed-reading and the making of mnemonic associations.

In class, the teacher places 10 different pictographic cards against the whiteboard. He or she then connects the cards to each other with a story, creating a picture in the mind which facilitates memorization. Shichida says that with practice, "Kids no longer need the verbal connections. They can easily remember 40 to 50 cards. For many kids even 100 cards aren't a problem."


Spiritual education

In addition to addressing the theory and practice of right-brain development and human learning potential, Shichida stresses balance and complementarity between the two sides of the brain. To him, right-brain education is ultimately spiritual education. "The overt consciousness is competitive, jealous and in opposition. But the deeper levels of consciousness are more compassionate, peaceful and loving."

Shichida feels that the universal mind, which created the universe in love and benevolence, exists within our human bodies. Therefore, when the human mind and the universal mind unite, we put ourselves in tune with these emotions.

The Shichida Schools in Japan stress Shichida's compassion, and encourage mothers to attend their children's classes. Shichida believes that right-brain education is only effective if children live in a loving environment. Therefore, if a child's relationship with his parents is poor, the teacher will give the mother guidance in building a closer relationship with the child.

Because the application of right-brain theory is still in its infancy, many still have doubts about the efficacy of right-brain teaching methods. Even in Japan, where there are more than 300 Shichida Schools dedicated to the use of Shichida Makato's right-brain techniques, the methodology has not been accepted into the mainstream educational system.

"You expect opposition," says Casper Shih, who has great confidence in the right brain's potential. He says that those who are opposed tend to reject the idea because of the lack of scientific verification. But he asks how you can replicate "supernormal abilities" and creativity in an experiment. Shih says, "There is still much that humans do not know about the brain. What we know most about now is its physical structure, but there is still a great deal we don't know about its software. Shichida Makato's theory of the brain's operating mechanisms is based on observation of brain phenomena." Shih feels that while Shichida's theory doesn't explain everything, it is most certainly a valid direction.


Scientific research into mental activities

Can the scientific method be applied to supernormal abilities? Lee Si-chen, a professor of electrical engineering at National Taiwan University who has been researching qigong and various of the body's more unusual capabilities, thinks so. He points out that mental activities became a new field for brain research in the 1980s. It had been thought that it was impossible to understand the mind from the perspective of neurophysiology. Now, however, the higher mental processes are thought to be the result of increased neurological complexity, and are being researched as the product of a system. He says that Sperry's research, with its discovery that certain brain capabilites resulted from cooperation between the two hemispheres, was critical to this new view.

Lee explains that the chips in a computer are like the neurons in a brain, and states that intelligence is a new characteristic arising from the linking together of these neurons in complex ways. It is a high-level operation of the brain. "Everyone who studies electronics knows that electrical transistors by themselves can only amplify a signal. But if you link a few together in a particular structure, they can store data. This new capability is the result of creating a complex system, and you must come up with a new theory to explain it. You can't explain it using quantum mechanics as you would a single crystal. Instead, you have to analyze it using electrical circuit theory." He therefore feels that Shichida Makato's explanation of creativity as a transformation of brain-waves (a low-level operation) is inadequate pending further research.

"More than 10 years of scientific experimentation has verified the existence of paranormal abilities such as 'reading' with the fingers and telekinesis." Lee says that numerous scientists are looking into such questions as why people see images in their minds when exercising these capabilities and from which part of the brain they originate. He says that Shichida's placement of the "third eye" in the pineal gland of the diencephalon may be accurate, but it needs to be verified through experimentation.

The controversy over Shichida's methodology raises yet another question, namely, how are parents and teachers to evaluate the never-ending stream of new educational methods being proposed?


Do all roads lead to Rome?

Chen Lung-an looks at the question from the perspective of creativity training. He supports the idea of developing both the left and right brains, but he doesn't agree with the idea that traditional education only trains the left brain. In Chen's opinion the traditional, lecture-based education can produce creative students. To him, the key lies in the attitudes and ideas of parents and teachers.

Based on his more than 20 years of research into creativity, Chen says that great natural creativity is the gift of a few, but creativity can be taught. The basic principle is teaching not just in the classroom, but from life, by opening children's eyes to the world and providing them with many stimuli. For example, when redoing the ceiling in the family apartment, parents can include children in the process of choosing a color and matching patterns. Or when eating out, parents can ask their children why a given dish has a given flavor and how it's made. They can point out that a dish does not have scallions and ask what has been used as a substitute.

Chen suggests that parents should let their kids enjoy themselves. Fostering curiosity, encouraging questions and providing challenges develop a child's creativity. In addition to encouraging kids to ask, think and do, parents need to be tolerant and appreciative to avoid killing a child's creative sense. The willingness of parents and teachers to do these things is the key. Simply put, kids need a "loving education."

Chen says that Shichida's imaging training and memory games are simply getting at the same thing from a different direction, and do help foster creativity. However, he warns parents that there is no shortcut to creativity; you accumulate it as you travel life's road.


Pushing too hard

On the other hand, child psychologist You Chien-kuei emphasizes that time hones people into adults. Not letting knowledge "settle" and not leaving time for rumination is dangerous. You takes the study of math as an example. She says that if a child learns to do arithmetic with three- and four-digit numbers too quickly and easily such that the underlying principles are never really absorbed, it can be an obstacle to later studies of mathematics. She feels that this issue must be taken into consideration.

Psychological therapy fully affirms Shichida Makato's "imaging training" concept. You Chien-kuei says that the period before children reach the age of 12 could be called the "cartoon stage." Thinking is done entirely in pictures and images because the structures which recognize patterns haven't yet developed. An image-based educational method-i.e. utilizing comics, stories and games-is bound to be more effective at getting and holding the interest of children of this age than one based on the written word.

Diane Fan, an assistant professor in the department of early childhood education at National Pingtung Teachers College, fully affirms the value of "imaging training," but says that for some of the games employed in the training it would be best if the teacher had some background in psychology. With such a background, the teacher would be able to better understand the children's response and stop inappropriate fantasies and images from developing too far.


Getting back to our essence

Fan believes that the most worthwhile aspect Shichida Makato's ideas is that "they remind us how to develop our inherent capacities and our essential being." Based on her years of observation and research into children's minds, Fan states, "A child's internal world is a pure and beautiful place. Children are naturally full of creativity." Parents shouldn't ignore children's core being by sending them off to attend extra-curricular classes so they can "learn something." What they should do is enter into their children's internal world, guiding and appreciating the imagination and creativity that children are born with.

Fan says that this idea of developing the capacities of the deeper self is also valuable in the context of growth and learning in adults. "Through the meditation aspect of imaging training, we take some time to listen to our inner voices. Carrying out the deep breathing exercises, we see the truth, virtue and beauty of our primal selves." Fan says that in the deep places of the human mind we hold the capacity to heal ourselves, mentally and physically. The problem is that we are accustomed to looking outside ourselves for help. For this reason, methods of getting back to our essential selves like those proposed by Shichida Makato should be promoted.

The trend today seems to be towards a kind of growth and healing which involves all three aspects of our selves-mind, body and spirit. In this context, right-brain education offers us a theoretical and methodological structure. The next step is for more research to allow humanity in the 21st century to develop broader scope as individuals and a more integrated self.

DOTS - SIMPLIFY(2)

For future easy reference, I thought I would write down in here all the steps from the book.


First Step
Quantity Recognition

Second Step
Equations

Third Step
Problem Solving

Fourth Step
Numeral Recognition

Fifth Step
Equations with numerals

DOTS - SIMPLIFY


1. Quantity recognition
a. dots 1-100, 0 last

2. Equations--3 sets per day (two weeks each) stat once 1-20 complete
a. add?2 step
b. Sub ?2 step
c. multi?2 step
d. div?2 step
e. 3 numbered, same equations (all add, all sub,...)
f. 3 numbered mixed equations (multi/div, add/sub)
g. 4 numbered mixed equations

3. Problem solving
a. sequences
Arithmetic: 2,4,6,8,10... 5,10,15,20,25,... 10,9,8,7,6....
Geometric: 1,2,4,16,32,64... 80,40,20,10,5 81,27,9,3,1
b. greater than/less than---using dot cards
c. equalities/inequalities
(used to teach math symbols) + - x ? = =
using dot cards, 3 per set same equations
2+4 n= 2+5 4+5=3+6 25+4 n=25+9

d. number personality (?)
Sets where all equations are based on one number?1, 12, 60, 64,
36, prime numbers, square numbers?4, 9, 16, 25, 36, triangle
numbers?3, 6, 10, 15, 21, 28, 36

e. fractions
use dots? ?one tenth of ten equals one?
1/10 of 10 = 1
1/3 of 3 = 3 1/3 of 6=9 1/3 of 9= 3

f. simple algebra
use dots and ?y? card
5+y =7 dot 5 + y = dot 7
what does y stand for??in this equation y stands for 2
Sets?12+y=24, 2+y=10, 60+y= 100........

4. Numeral Recognition
a. introduce standard numerals 1, 2, 3? (two sets of 5), add 3 new
per day, subtract 3 old per day
b. after 1-20 introduced use greater than/less than,
equalities/inequalities with dots to compare
12 > dot9 dot6 <> dot4 = 4

5. Equations with numbers

Equations--3 sets per day
(two weeks each) using numeral cards/strips not dots
a. add? 2 step
b. Sub ? 2 step
c. multi? 2 step
d. div? 2 step
e. 3 numbered, same equations
f. 3 numbered mixed equations (multi/div, add/sub)
g. 4 numbered mixed equations

Problem solving

a. sequences
Arithmetic: 2,4,6,8,10... 5,10,15,20,25,... 10,9,8,7,6....
Geometric: 1,2,4,16,32,64... 80,40,20,10,5 81,27,9,3,1
b. greater than/less than
c. equalities/inequalities
d. number personality
e. fractions--Fractions written with numbers
?one tenth of ten equals one?
1/10 of 10 = 1 1/3 of 3 = 1 1/3 of 6=2

f. simple algebra---- Written numerals and ?y? card
5+y =7
what does y stand for??in this equation y stands for 2

Sets? 12+y=24, 2+y=10, 60+y= 100........

DOTS METHOD - ADDITION

The Doman math program (How to Teach Your Baby Math) uses a very simple, straightforward way of teaching babies and toddlers the realities of numbers and equations. You simply show them the facts, and they discover the rules.

For teaching a toddler addition, this translates into gathering three cards and showing them: "One" (hold up a card with one dot on it) "plus two" (show the card with two dots on it) "equals three" (show the card with three dots on it).

No explanation, just show the facts. Since they can actually see the true number of dots, they understand what "plus" means because they can see what is happening. Therefore, tiny children who have been taught true quantity (see blogs under "Teach Your Child ... Math" to learn more) can learn what plus, minus, times, and divided by mean in the same way that they learn "mine" - which is, by seeing these words used in action.

DOTS METHOD (PART 1)

The program starts by teaching not numerals (1, 2, 3, or I, II, III) but rather quantity: showing a card with five red dots on it and saying, "This is FIVE!" You teach quantities up to 100, which takes about 10 weeks. Babies who have learned quantity can tell the difference between a card with 99 and 98 dots on it (or 99 and 98 people, pennies, cars, anything). It is absolutely amazing.

After a couple weeks of teaching quantity the baby can learn the meanings of addition, subtraction, multiplication, and division by being shown (with the quantity cards) these processes in action: ten plus three equals thirteen. And in turn, since they can actually SEE the number of dots, later on they can do any and all math instantly: ask any three-year-old who was trained on this program what fifteen times six plus twenty divided by ten equals, and without much thought or effort he can tell you in an instant: 11 of course! He can actually see the numbers (dots) being "manipulated" (added, subtracted, multiplied, and divided) and does not have to go through the pain-staking "put down the two and carry the seven" that we did when we first learned math.

Friday, January 9, 2009

artikel - pertuturan & bahasa anak anda...


Pertuturan Dan Bahasa : Pembangunan Lisan Anak Anda


Keupayaan bertutur dan kemahiran bahasa anak anda adalah satuanugerah semula jadi. Namun, anda boleh membantu mengasahbakatnya dengan cadangan berikut.


Oleh Cik Woo Pei Jun, Pakar Psikologi

Kebanyakan kanak-kanak belajar bertutur semasa kecil tanpa sebarang pendidikan formal. Manusia memang dilahirkan untuk bercakap dan keupayaan ini sesungguhnya adalah satu anugerah untuk anak anda. Meskipun bayi tidak dilahirkan dengan keupayaan untuk terus bercakap, mereka menggunakan tangisan dan gerak-geri untuk menyampaikan maksud dan kemahuan. Mereka juga dapat menerima mesej yang anda cuba sampaikan dengan memahami bahasa isyarat dan gerak-geri anda.


Kebanyakan kanak-kanak melafazkan perkataan pertama pada usia antara 12 dan 18 bulan. Apabila mencapai usia 4 hingga 5 tahun, mereka mula menggunakan ayat yang lebih kompleks. Dalam usia prasekolah, anak anda seharusnya sudah dapat memahami dan menguasai bahasa dengan baik dan mampu berinteraksi dengan kanak-kanak sebaya.


Bagaimanapun, sebagai ibu bapa, anda harus faham bahawa setiap kanak-kanak melalui tahap pembangunan lisan yang berbeza. Seorang kanak-kanak mungkin dapat melafazkan perkataan pertama pada usia 10 bulan, manakala seorang lagi mungkin melakukannya pada usia 20 bulan.


Membantu Anak Anda Menguasai Kemahiran Bertutur



Usah bimbang jika anak anda lambat bertutur. Sebagai ibu bapa, anda boleh memainkan peranan penting untuk membantu anak anda menguasai kemahiran bertutur. Perkara pertama yang perlu anda sedari ialah kanak-kanak belajar pada kadar yang berbeza. Ada yang cepat belajar, ada pula yang lambat menerima ajaran. Untuk mula mengajar anak anda, anda tidak boleh membuat penilaian berasaskan kelajuan tetapi sebaliknya memastikan sama ada pembangunan lisan anak anda berjalan dengan lancar.


Cara anda bercakap dengan anak anda akan menentukan kemahirannya untuk menguasai bahasa. Ini sangat penting dalam lima tahun pertama.



Ingatlah perkara berikut:


Proses menyeronokkan. Jangan paksa anak anda belajar dengan lebih cepat daripada biasa atau mengenakan tekanan ke atas proses pembelajaran. Proses pembelajaran seharusnya menyeronokkan bagi anda berdua.


Bercakap seperti biasa. Ingatlah, anda bercakap dengan seorang yang ternyata bukan pada tahap yang sama dengan anda. Jadi, bercakaplah seperti biasa dengan cara semula jadi yang boleh difahami dan diterima oleh anak anda.


Dengar apa kata anak anda. Beri perhatian kepada apa yang diperkatakan oleh anak anda dan dengar bunyi butir kata-kata yang keluar daripada mulutnya. Dengan cara ini, anda dapat menjawab dengan lebih baik dan membantunya menambah kemahiran.


Jadikan pembelajaran proses yang menyeronokkan. Pembelajaran seharusnya dijadikan satu proses yang menyeronokkan, bukan menyusahkan. Lakukan aktiviti yang bukan sahaja mengajar anak anda tetapi juga menyeronokkan anda berdua. Sebagai contoh, baca buku cerita bersama dan berkomunikasi dengan cara yang menyeronokkan supaya anak anda lebih berminat untuk belajar.


Jaga tutur kata dan bahasa. Jika anda mahu anak anda belajar dengan betul, anda perlu menjaga tutur kata dan bahasa semasa bercakap di rumah. Tabiat buruk akan menjadi contoh yang pasti menjadi teladan dan ikutan anak-anak.


Satu nasihat penting – jangan beri terlalu banyak tumpuan kepada “masalah” (seperti bunyi sebutan). Sebutan tidak betul adalah isu biasa. Lama-kelamaan, kebanyakan kanak-kanak akan dapat menyebut perkataan dengan betul. Bagaimanapun, jika anak anda menunjukkan tanda sukar untuk bertutur atau mengambil masa yang lebih lama daripada biasa untuk belajar bertutur, dapatkan nasihat pakar pertuturan, bahasa dan pendengaran kanak-kanak.

Lebih lagi cadangan oleh Persatuan Pertuturan-Bahasa-Pendengaran Amerika:


Buat buku skrap tentang benda biasa atau kegemaran anak anda dengan menggunting gambar. Semak buku skrap bersama anak anda dan namakan semua benda di dalamnya atau bincangkan tentang setiap gambar.


Luaskan perbendaharaan kata dengan menamakan anggota badan dan mengenal pasti apa yang dilakukan. Sebagai contoh, katakan “Ini hidung saya. Saya boleh menghidu bau bunga, biskut, bertih jagung dan sabun.”


Galakkan anak anda bertutur dengan memuji segala percubaannya untuk bercakap. Tunjukkan kepada anak anda bahawa anda memahaminya dengan menunaikan permintaannya, jika wajar.


Galakkan anak anda memberi arahan.


Nyanyikan lagu yang mudah dan senandung kanak-kanak bersama anak anda untuk menunjukkan ritma dan corak pertuturan.

artikel dari sini la....

artikel - galakan anak belajar....

Galakkan Pembelajaran!

Rumah adalah tempat paling baik untuk memulakan pembelajaran anak anda.
Beberapa contoh berikut dapat membantu anda.

Oleh Dr Goh Chee Leong, Pakar Psikologi Kognitif/ Pembangunan

Ibu bapa adalah antara guru yang paling sesuai untuk mendidik anak-anak. Dan tempat terbaik untuk kanak-kanak belajar ialah rumah mereka sendiri. Bantu anak anda membina kemahiran, sama ada kemahiran menulis, membaca, mempelajari bahasa baru atau sekadar membiasakan diri dengan tabiat pembelajaran baru, dengan melakukan perkara mudah berikut:

1. Berbual, Menyanyi Dan Menari Dengan Anak Anda
Kanak-kanak gemar melakukan aktiviti fizikal dan mereka pasti gembira jika dapat melakukan perkara yang menyeronokkan bersama anda. Belajar lagu baru dan ajar anak anda menyanyikannya. Galakkan seisi keluarga menyertai sesi permainan yang menyeronokkan untuk memberi lebih motivasi kepada anak anda.

2. Baca Kepada Anak Anda
Bacakan buku cerita atau buku fakta yang menarik kepada anak-anak. Mereka akan membesar menjadi kanak-kanak yang lebih baik daripada rakan sebaya mereka. Membaca adalah satu daripada cara paling cepat untuk kanak-kanak membina kemahiran pembelajaran dan tiada sesiapa yang lebih baik daripada ibu bapa untuk melakukan tugas ini. Jadikan tabiat membaca kepada anakanak satu amalan harian. Masa yang baik untuk membaca ialah sebelum menidurkan anak anak. Pastikan anda membaca dengan suara dan wajah yang ceria agar apa yang anda bacakan menjadi lebih menarik bagi anak anda. Bila anak anda sudah mula belajar membaca, baca buku kegemarannya bersama.

3. Hadkan Masa Menonton Televisyen
TV adalah jalan keluar yang mudah bagi ibu bapa yang tidak mempunyai masa untuk melayan anak anak. Jadi, hadkan masa anak anda menonton TV. Sebaliknya, gunakan masa itu untuk melakukan perkara yang digemari bersama. Kanak-kanak perlu mendengar dan bercakap dengan orang dewasa untuk belajar. Mereka tidak boleh belajar hanya dengan menonton televisyen.

4. Amalkan Sikap Positif Terhadap Pembelajaran
Tunjukkan semangat dan sikap positif apabila anak anda pulang dari sekolah dan menceritakan perkara baru yang dipelajari. Ikuti perkembangannya di sekolah dan ambil pendekatan proaktif untuk memantau kemajuan anak anda di sekolah. Tunjukkan minat dan jika boleh, cuba bantu pembelajarannya dengan penglibatan secara peribadi.

5. Beri Anak Anda Pujian Yang Sangat Diperlukannya
Kanak-kanak suka dipuji. Jadi, jika anak anda berkelakuan baik atau memperlihatkan prestasi yang cemerlang, tunjukkan kegembiraan dan berilah pujian. Ini bukan sahaja akan menaikkan semangat anak anda tetapi juga menunjukkan bahawa anda prihatin dan menghargainya. Satu lagi cara yang baik untuk melakukannya ialah dengan melekatkan lukisan anak anda pada pintu peti sejuk.

6. Galakkan Anak Anda Menggunakan Bahan Pembelajaran
Alat pembelajaran seperti kamus dan ensiklopedia amat berguna apabila anak anda berminat untuk meluaskan perbendaharaan kata atau menambah pengetahuan. Galakkan anak-anak merujuk kepada kamus dan ensiklopedia bila mereka memerlukan penjelasan mengenai perkataan yang menimbulkan kemusykilan.

7. Bawa Mereka Keluar Berjalan!
Ke perpustakaan, muzium, pameran atau taman permainan. Mendedahkan anak anda kepada tempat ini dapat membantu menggalakkan mereka belajar dan memberi motivasi kepada anak anda untuk lebih tekun belajar. Selain itu, ia juga menyeronokkan untuk seisi keluarga!

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