The answer depends on what the specimen is!
50 degrees
It is the temperature at which water boils. It is about 212 degrees f.
The value of a random variable that is uniformly distributed between 20 and 100 can be calculated by calculating the sum of numbers from 20 to 100 and dividing it by the difference between 100 and 20. The resulting mean is 58.5.
It's just another temperature scale, it corresponds to about the same as 100 degree Fahrenheit = normal body temperature.
the mean average of 78 and 100 is 89
The Celsius temperature scale has 100 degrees between freezing and boiling.
A microscope magnifies or enlarges the specimen 100 times from its actual size with clarity. With this, it will be easier to build character on the specimen that is under study.
between 30 degrees and 100 degrees
If you mean "between" 100 and 1000 to mean excluding 100 and 1000 then 449. If you want to include 100 and 1000 then 451.
100+320=420/2=210 - the mean is 210.
Liquid
50 degrees
The temperature of the specimen for a Urine Test is received at or below normal body temperature of 98.6F, depending on transfer time to the Lab. The test itself, is pretty much temperature insensitive.
Depending on the amount in a urine cup specimen, the temp should be above 90 degrees F. If the amount is small, the temp may not be high enough to be tested by the temp strip. If the urine is tested as it comes out of the bladder, then it will test between 92 and 100 degrees F.
In Fahrenheit, somewhere between 85 and 100 degrees, for an adult.
between 170 to 190f.
It is the temperature at which water boils. It is about 212 degrees f.