EDUCATION TRAINING SEMINARS FOR

Brand Owner (click to sort) Address Description
KAYE BEAUMONT Beaumont; Kaye 18 N. San Mateo Dr. San Mateo CA 94401 Education and Training Seminars for Cosmetologists, Cosmeticians and Make-Up Artists;Beauty and Skin Care Products-Namely, Skin Cleansing Milks, Skin Toners and Fresheners, Night and Day Skin Treatment Creams, Liquid Foundations, Sun Screen Lotions, Sun Screen Creams, Skin Treatment Masks (Creams), Eye Creams, Neck Creams, Hand and Body Lotions, Lipsticks, Compact Powders, Eye Pencils, Eye Shadow, Eau de Cologne, Aroma Therapy Oils, Aftershave Lotions, Deodorants;Beauty, Skin and Body Care Services;
KB Beaumont; Kaye 18 N. San Mateo Dr. San Mateo CA 94401 Education and Training Seminars for Cosmetologists, Cosmeticians and Make-Up Artists;The mark consists of a stylish representation of the letters KB.;Beauty and Skin Care Products-Namely, Skin Cleansing Milks, Skin Toners and Fresheners, Night and Day Skin Treatment Creams, Liquid Foundations, Sun Screen Lotions, Sun Screen Creams, Skin Treatment Masks (Creams), Eye Creams, Neck Creams, Hand and Body Lotions, Lipsticks, Compact Powders, Eye Pencils, Eye Shadow, Eau de Cologne, Aroma Therapy Oils, Aftershave Lotions, Deodorants;Beauty, Skin and Body Care Services;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. The objective of the present invention is to provide a method and apparatus for education and training in microfluidic technology. The microfluidic system training apparatus includes multiple flow configurations of microfluidic elements all configured and fabricated on a single plate, a microscope and a camera system connected to a monitor or computer, and a computer based control and data acquisition system as a means of controlling and measuring the flow properties. The hands-on experiments with the apparatus of the present invention are designed to provide students with training of varying complexity beginning with basic microfluidic flow system studies to the development of an advanced specific microfluidic flow process or protocol utilizing a variety of the conventional microfluidic elements.