Welcome to Anagrammer Crossword Genius! Keep reading below to see if sorptiv is an answer to any crossword puzzle or word game (Scrabble, Words With Friends etc). Scroll down to see all the info we have compiled on sorptiv.
sorptiv
Searching in Crosswords ...
The answer SORPTIV has 0 possible clue(s) in existing crosswords.
Searching in Word Games ...
The word SORPTIV is NOT valid in any word game. (Sorry, you cannot play SORPTIV in Scrabble, Words With Friends etc)
There are 7 letters in SORPTIV ( I1O1P3R1S1T1V4 )
To search all scrabble anagrams of SORPTIV, to go: SORPTIV?
Rearrange the letters in SORPTIV and see some winning combinations
Scrabble results that can be created with an extra letter added to SORPTIV
5 letters out of SORPTIV
4 letters out of SORPTIV
3 letters out of SORPTIV
Searching in Dictionaries ...
Definitions of sorptiv in various dictionaries:
SORPTIV - In 1957 John Philip introduced the term sorptivity and defined it as a measure of the capacity of the medium to absorb or desorb liquid by capillarit...
Word Research / Anagrams and more ...
Keep reading for additional results and analysis below.
Sorptiv might refer to |
---|
In 1957 John Philip introduced the term sorptivity and defined it as a measure of the capacity of the medium to absorb or desorb liquid by capillarity.According to C Hall and W D Hoff, the sorptivity expresses the tendency of a material to absorb and transmit water and other liquids by capillarity.The sorptivity is widely used in characterizing soils and porous construction materials such as brick, stone and concrete. * Calculation of the true sorptivity required numerical iterative procedures dependent on soil water content and diffusivity. * John R. Philip (1969) showed that sorptivity can be determined from horizontal infiltration where water flow is mostly controlled by capillary absorption:* * * * I * = * S * * * t * * * * * * {\displaystyle I=S{\sqrt {t}}\ } * * where S is sorptivity and I is the cumulative infiltration (i.e. distance) at time t. Its associated SI unit is m·s−1/2. * For vertical infiltration, Philip's solution is adapted using a parameter A1. This results in the following equations, which are valid for short times: * cumulative: * * * * I * = * S * * * t * * * * + * * A * * 1 * * * t * * * {\displaystyle I=S{\sqrt {t}}\ +A_{1}t} * * rate: * * * * i * = * 0.5 * S * * / * * * * t * * * * + * * A * * 1 * * * * * {\displaystyle i=0.5S/{\sqrt {t}}\ +A_{1}} * * where the sorptivity S is defined (when a sharp wetting front Lf exists) as: * * * * * S * ( * * θ * * 0 * * * , * * θ * * i * * * ) * = * * * * ( * * θ * * 0 * * * − * * θ * * i * * * ) * * L * * f * * * * * t * * 1 * * / * * 2 * * * * * * * {\displaystyle S(\theta _{0},\theta _{i})={\frac {(\theta _{0}-\theta _{i})L_{f}}{t^{1/2}}}} |