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Ch.1 - Chemical Tools: Experimentation & Measurement
Chapter 1, Problem 62

What is the difference between a derived SI unit and a funda-mental SI unit? Give an example of each

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1
Understand that the International System of Units (SI) is a standardized system used globally for scientific measurements.
Recognize that fundamental SI units are the basic units from which all other units are derived. They are independent and cannot be broken down into simpler units. Examples include the meter (m) for length, the kilogram (kg) for mass, and the second (s) for time.
Identify that derived SI units are combinations of fundamental units. They are used to express quantities that are not directly measured by fundamental units. For example, the unit for force, the newton (N), is a derived unit expressed as kg·m/s².
Consider the process of deriving units: for instance, velocity is a derived unit expressed as meters per second (m/s), which combines the fundamental units of meters and seconds.
Reflect on the importance of both types of units in scientific measurements, where fundamental units provide the building blocks and derived units allow for the expression of more complex quantities.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Fundamental SI Units

Fundamental SI units are the basic building blocks of the International System of Units (SI). They represent physical quantities that cannot be expressed in terms of other units. There are seven fundamental SI units, including the meter (length), kilogram (mass), and second (time), which serve as the foundation for all other measurements in science.
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Derived SI Units

Derived SI units are formed by combining fundamental SI units to measure more complex physical quantities. These units are created through mathematical relationships, such as multiplication or division. For example, the unit for velocity is meters per second (m/s), which combines the fundamental units of length (meters) and time (seconds).
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Examples of Units

An example of a fundamental SI unit is the kilogram, which measures mass. In contrast, an example of a derived SI unit is the newton (N), which measures force and is defined as one kilogram meter per second squared (kg·m/s²). Understanding these examples helps clarify the distinction between fundamental and derived units in scientific measurements.
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