1.48 | conventional quantity value | ||
conventional value of a quantity | |||
conventional value | |||
Quantity value attributed by agreement to a quantity for a given purpose. | |||
Example 3: | Conventional quantity value of a given mass standard, m = 100.00347 g. | ||
Note 2: | Sometimes a conventional quantity value is an estimate of a true quantity value. | ||
Note 3: | A conventional quantity value is generally accepted as being associated with a suitably small measurement uncertainty, which might be zero. | ||
Example 4: | Relative atomic mass for carbon as listed in the IUPAC Green Book.6 | ||
Example 5: | Consensus property value of the measured values of an interlaboratory comparison30 entry 3.11. | ||
Note 4: | In quality assurance and quality control in chemistry a conventional quantity value, which may be a consensus property value, is often termed “assigned value”. | ||
Source: [VIM 2.12] with Note 1 and Examples 1 and 2 omitted, and Examples 4 and 5 and Note 4 added. |
1.48 | conventional quantity value | ||
conventional value of a quantity | |||
conventional value | |||
Quantity value attributed by agreement to a quantity for a given purpose. | |||
Example 3: | Conventional quantity value of a given mass standard, m = 100.00347 g. | ||
Note 2: | Sometimes a conventional quantity value is an estimate of a true quantity value. | ||
Note 3: | A conventional quantity value is generally accepted as being associated with a suitably small measurement uncertainty, which might be zero. | ||
Example 4: | Relative atomic mass for carbon as listed in the IUPAC Green Book.6 | ||
Example 5: | Consensus property value of the measured values of an interlaboratory comparison30 entry 3.11. | ||
Note 4: | In quality assurance and quality control in chemistry a conventional quantity value, which may be a consensus property value, is often termed “assigned value”. | ||
Source: [VIM 2.12] with Note 1 and Examples 1 and 2 omitted, and Examples 4 and 5 and Note 4 added. |