No, its more certain than 23.5 mL
The usual measuremnts consist of Units and quantities (how much) More sophisticated measurements should also include some kind of expression for the uncertainty of the measurement.
What determines how precise a measurement is
The smaller the unit the more accurate the measurement will be.
The smaller the measurement, the more accurate.
An actual measurement is going to be more accurate than an estimate.
The usual measuremnts consist of Units and quantities (how much) More sophisticated measurements should also include some kind of expression for the uncertainty of the measurement.
It would be this uncertainty or, if more than one, these uncertainties..
There can be uncertainty about where the money is going or who is in charge. The more uncertainty the harder it is for people to do their jobs.
The obvious organizational design response to uncertainty and volatility is to opt for a more __________ form.
The uncertainty principle in quantum physics says that there is a limit to how precisely you can measure one of a pair of variables like position and momentum. You can measure position precisely, but you cannot at the same time precisely measure momentum. Or . . . you can precisely measure momentum, but you cannot at the same time precisely measure position.
The heisenberg uncertainty principle is what you are thinking of. However, the relation you asked about does not exist. Most formalisms claim it as (uncertainty of position)(uncertainty of momentum) >= hbar/2. There is a somewhat more obscure and less useful relation (uncertainty of time)(uncertainty of energy) >= hbar/2. But in this relation the term of uncertainty of time is not so straightforward (but it does have an interesting meaning).
The uncertainty principle is a theory that the more you know about the speed of an electron, the less you know about its position and vica versa
The wavelength is inversely proportional to the momentum (mass times velocity). Everyday objects - even a speck of dust - are so massive that the wavelength is extremely short - many times smaller than an atom. Only for small objects - for instance, electrons in an electron microscope - can the wave nature of matter become noticeable.
Disappointment, indecisive, uncertainty, much more
For more accurate readings of measurement.
What determines how precise a measurement is
It is according to the measurement markings on the instrument. If there are many, it is more likely to be exact or accurate. Also it depends on if you started on the very center of the very first marking, and did not move the instrument while measuring. So, the answer is ... yes.