Establishing the precise characterization of a particular soil classification, specifically Type C-60, necessitates a reliable source. This information often originates from established engineering or agricultural standards, governmental agencies, or academic research. The specification would typically detail the soil’s composition, particle size distribution, plasticity, and other relevant geotechnical properties. For example, the definition might come from a Department of Transportation specification, an ASTM standard, or a university’s soil science department.
Accurate soil classification is crucial for numerous engineering and agricultural applications. In civil engineering, it informs decisions regarding foundation design, slope stability, and earthwork construction. Understanding the properties of Type C-60 soil, for instance, enables engineers to predict its behavior under load and determine appropriate construction techniques. In agriculture, soil classification guides crop selection, irrigation strategies, and fertilizer application, maximizing yields and minimizing environmental impact. Historically, soil classification systems have evolved from simple visual assessments to sophisticated laboratory analyses, reflecting the increasing complexity of modern engineering and agricultural practices.
