the difference between random and structured packing depend on many thing:
1. gas - liquid contact
2. pressure drop
3. type of solvent
4. etc..
Simple!
Bias is systematic error. Random error is not.
A random process is a sequence of random variables defined over a period of time.
"randomn" is not a real word.
There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.
Structured packing offers higher efficiency due to its specific design that provides a high surface area for mass transfer. It also has lower pressure drop compared to random packing, resulting in reduced energy consumption. Additionally, structured packing allows for better liquid distribution and is more resistant to fouling.
a
Simple!
Bias is systematic error. Random error is not.
A random process is a sequence of random variables defined over a period of time.
Random variables is a function that can produce outcomes with different probability and random variates is the particular outcome of a random variable.
"randomn" is not a real word.
yow mam is spontaneous and yow dad is random
Biased- (Not random) Unbiased-(Random) Example: (ubbiased) Woman takes random people to take a survey.
random sample is a big sample and convenience sample is small sample
There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.There is no such thing as "the usual sampling distribution". Different distributions of the original random variables will give different distributions for the difference between their means.
Spam is unsolicited to random addresses.