What is color coding?
Color coding is the technique formulated in the 90’s to allow the eye of a robotic device to scan each letter and pronounce the exact sound that corresponds to it in accordance to the algorithms designed to give voice to artificial intelligence systems. The code works in such a way that the robot will pronounce the exact sounds of each letter in each pronounceable word while not pronouncing when the color is red as following the concept of STOP (stop the sound). This principle, when implemented to teach humans to read English or Spanish works by providing the reader with the visual clues to know exactly what and how to pronounce according to the color of each letter. When a word has any letter that needs not to be pronounced it will be color coded in red. The exact pronunciation guides and conditions for the use of this Formula are totally explained in the digital book published as FORMULA 1 “Color Code Reading” in the following website: http://www.literacysystems.com
How does color coding help in learning new languages?
The Color coding technique levels the plain field of universal human communications skills by providing a consistent, simple and effective set of concepts/rules to empower with effective reading skills. Formula 1 empowers the mind to become capable of reading at a multilingual modality starting with the ENGLISH language. The first condition to learn any language other than the native one is to learn to read it. Once the reading skills are established the comprehension builds with practice and experience of that other language. Formula 1 focuses on the decoding of the reading of languages while building the base for comprehension and writing of such languages. Formulas 2 and 3 from the Quantum Language System equip the mind of the learner to fully develop the necessary skills to write, comprehend, interpret and compose sentences in a multilingual modality.
How does color coding help in pronunciation?
Color code is an exact system that assigns specific sounds to specific letters providing the reader with effective reading skills for life. If a person is monolingual in any language, by learning to read color coded English the mind activates neuropaths never active before and empowers that person to apply the color coding concepts into any other language that matches such coding structure. This is to say that if a person learns the concepts in ENGLISH when the need comes to read other languages the mind is equipped to read perfectly that new language. The condition is that to match the exact pronunciation of that new language such language has to be color coded correctly and consistently with the parameters established in Formula 1. For example Monolingual English Readers can read Spanish accurately because the phonetic decoders in English exist consistently in Spanish thus allowing the reader to pronounce without distorting the correct pronunciation.
How do visual learners benefit from learning with color coding?
Visual learners can benefit tremendously from this formula because with the “scientific-graphic-phonetic-organic-digital-color-coded” spectrum proposed in Formula 1 the reader can identify each word as a unit and recall it as a single consistent sticker. Each person in the world has a unique finger print; each letter in the world contains a unique phonetic identity that once is learned it remains in the brain for life. This formula represents the first mental fitness system that can exercise the brain cells connections in such way that beyond reading correctly learning is enhanced and activated in a multilingual modality. By color coding languages people can avoid the phonetic traps coded in purpose by the originators of languages when they were originally matched with letters and sounds. Human evolution will be better off when the entire world respects this universal reading system as its being done with traffic lights.
How is color coding better than phonics?
Color coding is better than phonics because phonics is designed for ENGLISH ONLY reading skills but such program is limited. Color coding proposed in Formula 1 has decoded the entire English language phonetic structure and not only does it work with classical English and Contemporary English, but in fact, it even goes as far as decoding slang English with an exact precision such that world languages have no problem fitting in perfectly. The researcher and author Imaginhr Is’real Cantero II is currently working to identify, isolate, and marquee new phonetic decoders for world languages aside from English to provide this and future generations with all the clues necessary to empower multilingual skills in “all people”, without much effort.