The unit's electronics platform determines energy content, relative density and compressibility based on industry-standard calculation methods.
What does RD stand for?
RD stands for Relative Density
This definition appears very rarely and is found in the following Acronym Finder categories:
- Science, medicine, engineering, etc.
See other definitions of RD
We have 96 other meanings of RD in our Acronym Attic
- Reference Data
- Reference Designator
- Reference Document
- Reference Drawing (drafting and design)
- Regio Decreto (Italian: Royal Decree)
- Region Directors
- Regional Director
- Registered Dietician
- Reinforcement Designee
- Relationship Disclosure
Samples in periodicals archive:
quinquefasciatus by this fish species may be affected by variations in relative density in comparison to alternative prey.
To determine the mechanical properties of foams, first, its relative density ([[rho].
Using these measurements, the device concludes an efficient gas mixture comprising five components such as methane, ethane, propane, nitrogen, and measured carbon dioxide and then employs ISO6976 to determine the gas quality characteristics of calorific value (CV), Wobbe index (WI), relative density (RD), and compression factor (Z).
From these measurements the device infers an effective gas mixture comprising five components: methane, ethane, propane, nitrogen, and measured carbon dioxide and then uses ISO6976 to calculate, among other things, the gas quality characteristics of calorific value (CV), Wobbe index (WI), relative density (RD), and compression factor (Z).
The team had the idea - borne out by calculations carried out by Mr Cummins - that the relative density of bubbles and the surrounding liquid could be behind the phenomenon.
05 Brighton Heavy metals are commonly defined as elements with a high relative density.
Calculations were performed utilizing with the following formulae: Frequency = number of points containing a species Relative frequency = frequency/sum of frequencies for all species * 100 Density = number of sterns per species Relative density = density/total number of sterns * 100 Basal area = sum of dbh by species/2 * [pi] Relative basal area = basal area per species/sum of basal area * 100 Importance value = Relative frequency + relative density + relative basal area/3 Area of tree coverage = [[(total distance for all species/number of stems)/2].