A whimsical color concept board book that shares a some fun pop music history while teaching children all the colors of the rainbow. Preschoolers learning to identify colors will love this whimsical book, while music-savvy parents will love the artistic representation of some of their favorite song titles, including Little RED Corvette, BLUE Suede Shoes, and PINK Moon, just to name a few.
A positive and affirming look at skin color, from an artist's perspective. Seven-year-old Lena is going to paint a picture of herself. She wants to use brown paint for her skin. But when she and her mother take a walk through the neighborhood, Lena learns that brown comes in many different shades. Through the eyes of a little girl who begins to see her familiar world in a new way, this book celebrates the differences and similarities that connect all people. Karen Katz created The Colors of Us for her daughter, Lena, whom she and her husband adopted from Guatemala six years ago.
The fundamental structure of the universe, from the particle and the atom to the biological evolution of organisms such as the eye and ear, exist because of the harmonic relationships of waves. The most significant characteristic of the human species to evolve was advanced communication abilities resulting from the perception of harmonics. This perception led directly to the unique biological morphology of the human vocal apparatus and the correlative neurocranial expansion of the auditory, memory, and language regions of the brain. New research is conclusively demonstrating that the modern human capacity for advanced language was in tact by approximately 200,000 B.C.E. and that the earliest advanced technologies to be created were harmonic sound and language devices. To date, there has never been a thorough examining or explanation of why the harmonic component emerged, nor has a model been discovered or developed to define and elucidate the harmonic structure of language which is the unifying mechanism of all fields. Within this treatise, a new harmonic model of Euclidean space is presented which elucidates the fundamental harmonic identities of numbers and their relationships within a naturally occurring resonant field system. This model is then applied to various harmonic phenomena in contrasting wave based fields to demonstrate unified harmonic structure and function. As a pièce de résistance, it is shown that the harmonic mechanisms which create the triangularity of vowel formant perception and the resultant Euclidean harmonic circularity of vowel space, is synonymous to the ocular cone trichromacy forming color perception and the resultant Euclidean harmonic circularity of color space. Due to the underlying harmonic frequency substrate of both these phenomena, an expanded harmonic correlation is demonstrated with wide ranging repercussions. One such consequence being the ability to linguistically transfer the categorical perception of harmonic structure from one field to another providing a plethora of new harmonic investigative and analytical tools for every wave based field. The core of the information presented herein is demonstrated through the medium of sound and the organizing harmonic elements of music language. Accordingly, the integral components of language formant vowels and consonants, color trichromacy, and dual harmonic frequency/wavelength systems are unified in an applied model which has been tested for the past decade showing fundamental harmonic cohesion and discourse between the underlying phenomena. Though this treatise is a scholarly presentation, it is designed to be accessible to a wide and diverse educated audience due to the sheer scope of facts presented from multiple niche disciplines to which no single scholar could be expected to possess an expert command. It is thus a comprehensive panorama of harmonic structure providing a never-before-seen perspective harmonic correlation between seemingly unrelated fields. As much as this treatise is an extensive exposition of the structure of harmonics, it is also an engaging expose of harmonic evolution within the biology of multiple species and the systems of color, language, and music. It has therefore been defined as a Rosetta Stone which not only provides for the decoding of fundamental evolutionary harmonic correlations between wide ranging organisms, but also provides new tools to investigate, analyze, and evolve the next frontier of harmonic order.
An experimental approach to the study and teaching of color is comprised of exercises in seeing color action and feeling color relatedness before arriving at color theory.
Holi, Hai! Holi, Hai! It’s time to prepare for the Indian springtime Festival of Colors in this delightful Classic Board Book! It’s time for the Indian festival of Holi, a celebration of the start of spring, of new beginnings, and of good over evil. Friends, families, and neighbors wear white clothing and toss handfuls of brightly colored powders at one another until they’re all completely covered from head to toe! Young readers will love following the young siblings gathering flowers to make the colorful powders for the big day until—poof!—it’s time for the fun to begin.
This eye-opening picture book introduces readers to their five senses and to synesthesia—a condition in which one sense triggers another. For some people, sounds or tastes have colors. And for others, numbers and letters do. Many famous artists have been synesthetes, including Tori Amos, Duke Ellington, Jimi Hendrix, Lady Gaga, Stevie Wonder, Billy Joel, John Mayer, Mozart, and Degas. Imagine that when you hear a bell you see silver or when a dog barks you see red. That’s what it’s like for Jillian—when she hears sounds she sees colors. At first the kids at school make fun of Jillian. Jillian worries about being different until her music teacher shows her that having synesthesia is an amazing thing. This lively, informative picture book makes synesthesia easy to understand and celebrates each person’s unique way of experiencing the world.
Learning colours is fun in this entertaining book from the creators of the #1 New York Times Bestsellers, The Day the Crayons Quit and The Day the Crayons Came Home.
Mary Hallock-Greenewalt played the piano with the Philadelphia and Pittsburgh Orchestras as a concert soloist, invented her own color organ that she called a "Sarabet" after her mother, and, in her pursuit of the art she named "Nourathar" by combining the Arabic words for "essence of light,"she had to invent the machinery required as well. Numbered among her inventions are the rheostat that allos the gradual fading of light, the mercury switch, and was among the earliest developers of colored gel filters for tinting theatrical lights. Her patent for the rheostat became the subject of an infirngement lawsuit in the lat 1920s against such large corporations as General Electric, a lawsuit that she ultimately won in 1936. This volume collects all eleven of her technology patents, revealing the refinement and evolution of the Sarabet. These patents also enable a clear evaluation of her contributions to visual music, since, as Dr. Betancourt notes in his introduction, the patents allow a much clearer determination of her place in history and a peer-reviewed statement of her accomplishments.
