... darkrealms ...

Forums before death by AOL, social media and spammers... "We can't have nice things"

sci.electronics.basics

Elementary questions about electronics

72,318 messages

[ << oldest | < older | list | newer > | newest >> ]

Message 71,746 of 72,318

Pimpom to Commander Kinsey

Re: Error of % + digits?

20 Jun 20 12:09:37

   XPost: sci.electronics.equipment   
   From: nobody@nowhere.com   
      
   On 6/20/2020 4:29 AM, Commander Kinsey wrote:   
   > On Fri, 19 Jun 2020 23:55:42 +0100, Ralph Mowery  wrote:   
   >   
   >> In article , CFKinsey@military.org.jp says...   
   >>>   
   >>> But what I'm surprised at is a £5 multimeter (not clamp) not giving a   
   digits error.  Maybe precision on a simple voltmeter is cheap as chips   
   nowadays?   
   >>>   
   >>>   
   >>   
   >> You have to be careful how you throw precision and accurecy around.   
   >>   
   >> A meter that shows 4 digits is more precice than one that shows only 3   
   >> digits, however the 4 digit one may only be 1% accurate and the 3 digit   
   >> one may be .5% accurate.   
   >>   
   >> It is easy to get precision, but difficule to be accurate.  Think of it   
   >> as shooting a gun.  Precision may be how close the bullets land to each   
   >> other where ever they land on the target, but to be accurate the bullets   
   >> have to land on the center of the target.  Such as all the bullets could   
   >> land very close to each other, but not even hit the target.   
   >>   
   >> As I mentioned, a good meter will not have a digits error outside the +-   
   >> one digit due to rounding.   
   >   
   > That didn't help.  I interchange the two.  I just want to know how close to   
   the correct reading the readout is.  Adding another digit doesn't improve   
   anything if it's incorrect.  And shooting all the bullets in one place doesn't   
   help if they all miss.   
   >   
      
   Take pi as an example. It can be said that 3.14 is accurate as a   
   three-digit value, but 3.1416 is more precise because it has a   
   higher resolution.   
      
   OTOH, deriving it from 22/7 or 3.1429 has the same 5-digit   
   resolution and is just as precise as far as the number it   
   represents is concerned but is less accurate.   
      
   In this particular case, 3.1416 is both more precise and more   
   accurate than 3.14 but that's not always the case with measurements.   
      
   My mechanical slide caliper has a resolution of 0.001 inch. This   
   means that it can display measurements with a precision of 1 mil,   
   but that doesn't guarantee that a measurement taken with it will   
   be accurate to 1 mil. I may not always press the jaws snugly   
   enough and the scale may not be perfectly accurate.   
      
   --- SoupGate-Win32 v1.05   
    * Origin: you cannot sedate... all the things you hate (1:229/2)

[ << oldest | < older | list | newer > | newest >> ]