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Units and Standards of Measurement01:10

Units and Standards of Measurement

A physical quantity is defined either by specifying its measurement method or by stating how it is calculated from other measurements. For example, consider a metallic cube. We might define its mass and dimensions by specifying methods for measuring them, such as using a weighing machine and a meter scale. Then, we could define the volume by stating that it is the cube of its side, and we could calculate the density as the mass divided by the volume.
Measurements of physical quantities are...
Units and Standards of Measurement01:10

Units and Standards of Measurement

A physical quantity is defined either by specifying its measurement method or by stating how it is calculated from other measurements. For example, consider a metallic cube. We might define its mass and dimensions by specifying methods for measuring them, such as using a weighing machine and a meter scale. Then, we could define the volume by stating that it is the cube of its side, and we could calculate the density as the mass divided by the volume.
Measurements of physical quantities are...
Conversion of Units01:36

Conversion of Units

Sometimes, there is a need to convert from one unit to another one. For instance, reading a cookbook in which quantities are expressed in units of liters or ounces may require conversion of quantities to cups. Or, when looking up directions on how to get to a location, we may be interested to know how many miles we are going to walk. In this case, we would have to convert units of feet or meters to miles.
The first step in the unit conversion is to list the given units and the units required...
Dimensional Analysis03:40

Dimensional Analysis

Dimensional analysis, also known as the factor label method, is a versatile approach for mathematical operations. The main principle behind this approach is: the units of quantities must be subjected to the same mathematical operations as their associated numbers. This method can be applied to computations ranging from simple unit conversions to more complex and multi-step calculations involving several different quantities and their units.
Conversion Factors and Dimensional Analysis
The unit...
Measurement: Standard Units03:38

Measurement: Standard Units

Every measurement provides three kinds of information: the size or magnitude of the measurement (a number), a standard of comparison for the measurement (a unit), and an indication of the uncertainty of the measurement. While the number and unit are explicitly represented when a quantity is written, the uncertainty is an aspect of the errors in the measurement results.
SI Units: 2019 Redefinition01:13

SI Units: 2019 Redefinition

Measurement is an indispensable part of analytical chemistry. The result of measurement helps quantify a substance's physical property and compare it with the physical property of another substance. Each measurement comprises two components - a number indicating the magnitude and a unit of measurement as a standard for comparison. Further, the same quantity can be measured using different units of measurement, which leads to differences in magnitude.
A standard set of units has been defined to...

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Radiometry and photometry: units and conversion factors.

J R Meyer-Arendt

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    Summary
    This summary is machine-generated.

    This study simplifies radiometric and photometric units, identifying essential ones and presenting their definitions and conversion factors for clarity.

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    Area of Science:

    • Photometry and Radiometry
    • Metrology
    • Scientific Units

    Background:

    • Radiometric and photometric units are historically significant but often contain redundancies.
    • The current system of units can be complex and illogical for practical application.

    Purpose of the Study:

    • To identify and present the essential radiometric and photometric units.
    • To simplify the understanding and application of these scientific units.
    • To provide clear definitions and conversion factors for essential units.

    Main Methods:

    • Analysis of existing radiometric and photometric units.
    • Identification of redundant and illogical units.
    • Compilation of essential units with their definitions and conversion factors.

    Main Results:

    • A reduced set of essential radiometric and photometric units has been identified.
    • Clear definitions for these essential units are provided.
    • Conversion factors between essential units are presented.

    Conclusions:

    • Simplifying radiometric and photometric units enhances clarity and reduces confusion.
    • A focused set of essential units is sufficient for most scientific applications.
    • Standardized definitions and conversion factors improve metrological consistency.