The reduction of the syntax of a model to that set of rules necessary and sufficient to describe interactions among its structural elements increases rather than diminishes the power and effectiveness of the model. For example, chemists don't need to test all possible chemical combinations to discover which outcomes will be successful. A knowledge of the basic properties of atomic elements and molecular structures allows them to predict, in many cases, which chemical interactions will work and which will not. The elegance of the model of modern chemistry enhances efficiency and streamlines the operational strategies for predicting and generating outcomes.

Modeling elegance serves a similar function in NLP, cutting through the complexities of human behavior to reveal the underlying rules that govern behavioral interactions. NLP is concerned with the generative principles of behavior rather than the content, which in its infinite variety may become infinitely complicated and confusing. Because it concentrates on form, NLP is freed from attachment to a particular behavioral content. In this perspective the evolution of behavior offers us an alternative to "specialization," which is often just familiarity with content.

By knowing the basic elements and generative rules of a particular model of behavior, whether that of science, technology, business, law, therapy, medicine, politics or education, it isn't necessary to spend years studying the particulars of behavior within each model in order to master it. Indeed, progress in the efficiency and potential of education has always occurred as more elegant models have developed.

1.7 Representational Systems: The Building Blocks of Behavior

The basic elements from which the patterns of human behavior are formed are the perceptual systems through which the members of the species operate on their environment: vision (sight), audition (hearing), kinesthesis (body sensations) and olfaction/gustation (smell/taste).