Your calculations can be more precise, but the final result should be rounded, to avoid giving the impression that it is more exact than is justified by the measurements.
DMM (Digital Multimeter) test lead resistance should generally not exceed 0.1 ohms to ensure accurate measurements. Higher resistance can introduce significant errors, particularly in low-resistance measurements or applications requiring precise readings. It's important to periodically check and calibrate test leads to maintain their performance and reliability.
never they say they will when every one is used to metric measurements
"Stunt drivers must use precise timing to ensure that they succeed." "The precise location of the lost city was never determined."
It depends on the confidence level you want to achieve. Basically, the more measurements you make, the closer the measured percentage should be to the actual probability. But you'll never be absolutely sure.
Because the results we get when we calculate measurements are estimated or rounded up as some people say, so being around the true answer is called accurate. Also, the devices we use to measure ( scales are an example of this) are never actually perfectly precise in how they are set, plus they are not completely clean which can change your answer. this change would not seem to be alot though it's not the true or exact answer.
They are always true - if your calculations are sound.
I don't know if this will help you at all, but Im the same height and I have the same measurements and I have never ever had a complaint about my body, only compliments! So I'll say your measurements are perfect ;)
Accurate or precise are one and the same to which the automotive speedometer would never be.
Kooiman has never publically announced her bust size.
no There should never be an apostrophe in "never".
A: Resistors are never precise they normally come with 5% tolerance. However if precise tolerance is needed one can purchase a precise resistor down to 0,01% or even lower % but these resistors are special and made special for each application
Different people or organizations may have made slightly different measurements. Measurements are never 100% accurate.