Quantitative characteristic: Difference between revisions
Jump to navigation
Jump to search
(Created page with "=Definition= A quantitative characteric is a characteristic that can be expressed in a numeric value. =Examples= Examples of quantitative characteristics are: x =References= Category:All") |
|||
| (14 intermediate revisions by the same user not shown) | |||
| Line 1: | Line 1: | ||
=Definition= | =[[Definition]]= | ||
A quantitative | A quantitative characteristic is a [[characteristic]] that can be expressed in a value. | ||
=[[Generic relation]]s= | |||
[[Superordinate concept]] in the [[generic relation]] is: | |||
* [[Characteristic]] | |||
=Examples= | =Examples= | ||
Examples of quantitative characteristics are: | * The height of the door is 2.60 metres. | ||
* The color of the table is red. | |||
=[[Instance]]s= | |||
Examples of instances of quantitative characteristics are: <ref> Nederpelt, Peter W.M. van (2012). Object-oriented Quality and Risk Management (OQRM). A practical and generic method to manage quality and risk. Releigh, N.C., USA: Lulu Press </ref> | |||
A | |||
Acceleration | Age | |||
C | |||
Capacity | Colour | Costs | |||
D | |||
Delivery time | Duration | |||
F | |||
Frequency | |||
H | |||
Height | |||
L | |||
Length | Life span | |||
P | |||
Periodicity | Price | |||
Q | |||
Quantity | |||
R | |||
Reaction time | Recovery time | Response time | |||
S | |||
Size | Speed | |||
T | |||
Turnover | |||
V | |||
Volume | |||
W | |||
Weight | Width | |||
and all other fysical quantities | |||
= | =[[Reference]]s= | ||
[[Category:All] | [[Category:All]] | ||
Latest revision as of 17:19, 30 December 2022
Definition
A quantitative characteristic is a characteristic that can be expressed in a value.
Generic relations
Superordinate concept in the generic relation is:
Examples
- The height of the door is 2.60 metres.
- The color of the table is red.
Instances
Examples of instances of quantitative characteristics are: [1]
A
Acceleration | Age
C
Capacity | Colour | Costs
D
Delivery time | Duration
F
Frequency
H
Height
L
Length | Life span
P
Periodicity | Price
Q
Quantity
R
Reaction time | Recovery time | Response time
S
Size | Speed
T
Turnover
V
Volume
W
Weight | Width
and all other fysical quantities
References
- ↑ Nederpelt, Peter W.M. van (2012). Object-oriented Quality and Risk Management (OQRM). A practical and generic method to manage quality and risk. Releigh, N.C., USA: Lulu Press