Jianxin Zhao hails from a long line of artists, so it was only natural that she’d study gongbi figure painting at the Chinese Central Academy of Fine Arts in Beijing. Three of her award-winning paintings caught the attention of the National Art Museum of China, where they currently reside as part of the museum's permanent collection. For more than a decade, she used this fame to pursue a career as a university professor of fine arts before eventually moving to the United States. Two years later, Professor Zhao founded the US Arts Education Center in Temple City, where she continues to dedicate her life to educating young people in the arts to this day.
Over the years, she has built crack team of educators to assist with the development of her curriculum. Known as Comprehensive Training in Art, this system combines eastern and western teaching philosophies, and instructs people at all stages of life, including preschool through adulthood. Professor Zhao has also expanded her educational endeavors beyond this flagship location, developing an exclusive partnership with UCLA through the Thought-Makers Program and opening additional facilities in Chantilly, Torrence, and San Diego.
In 1985, drawing from his own struggles with learning to read, Dr. Ken Gibson set out to change the way we learn. After convening with other experts to discuss challenges children were facing in the classroom, he cocreated a cognitive-skills program that eventually became the foundation of the LearningRx centers.
The clinically proven brain-training method, which is used on adults and children alike, consists of specific targeting, one-on-one coaching, and immediate feedback. Using professional cognitive tests, the centers first identify where strengths and weaknesses lie in their clients? cognitive framework. From there, they are able to tailor mental workouts that help strengthen those areas of the brain and even create new neural pathways. The brain-training method can be beneficial for struggling students, adults wanting to remain competitive in the workplace, and the elderly.
Brainbench's test database covers more than 600 topics, but the number of unique tests it houses is arguably infinite. To enhance security, a test's questions change each time it's taken. This makes certification in its various subject areas—such as healthcare, computer programming, and foreign language—more difficult to attain.
This rigor has drawn more than 13,000 employers to Brainbench testing because it proves to them that a job applicant actually does have the skills listed on his or her resume. For example, it proves that the candidate is actually fluent in Spanish and not just someone who walks around in a matador's cape. Once certified in a topic, such as business writing, C++ programming, or Adobe Photoshop, a member can share their online transcript with a prospective employer with the click of a mouse.
ScienZminds engineers build armies of robots every day, but they don’t pose much danger to humanity—even children can control them. Which they do. Using Lego kits, sensors, motors, and age-appropriate programming software, elementary- and middle-school students fashion bots that interact with the world around them and carry out instructions. Beyond the robots, ScienZminds’ educators lead several other classes that get kids excited about science, math, technology, and engineering. For instance, an electronics course uses circuit boards to build devices including an organ that reacts to light and a lie detector to help figure out which parent really ate the Halloween candy.
The staff at Encampus doesn’t consist of your typical camp counselors. Their instructors hold experience in different fields of science and technology, which earns them the right to teach summer camps that focus on the same areas. Lego Mindstorms teaches kids how to build and program robots, whereas Scratch camps relay a programming language created specifically for youngsters by MIT. The Programming with Alice, designed by Carnegie Melon University, uses interactive 3D tools to help kids learn the concepts of programming.
Children are best equipped to develop analytical skills for current and future learning between the formative ages of 3.5 and 14. That's why Best Brains sets students off on the right foot by offering focused courses in subjects such as math, English, abacus, and general knowledge. Certified teachers help students develop skills in writing, grammar, critical thinking word problems, and basic computational math, using an abacus counting tool to help develop spatial memory.