Wiki User
∙ 6y agoFalse. The first measure to an accuracy of 0.01 feet. The second measures to an accuracy of 0.01 inches = 0.01/12 = 0.0008333... (repeating) feet.
Wiki User
∙ 6y agoIt is not; there are more precise measurements.
measuring
true
A number. To be more precise, a decimal representation of a rational number.
5.2632
The precision of a measurement can be determined by looking at the number of decimal places in the measurement. The more decimal places, the more precise the measurement. Additionally, if a measuring tool is capable of measuring smaller increments, it can provide a more precise measurement.
So it can be precise for measuring time.
A graduated cylinder is a common tool used for measuring precise volumes of liquids in a laboratory setting. It has markings along its length that allow for accurate measurement of the liquid volume.
Yes, a stopwatch is generally more precise for measuring time because it typically has a higher resolution, allowing for more accurate timing down to milliseconds or even microseconds. In contrast, the second hand of a wall clock typically measures time in whole seconds, making it less precise for measuring shorter durations of time.
It is not; there are more precise measurements.
Precise measures are important for accuracy and reproducibility in research, manufacturing, and everyday tasks. They help ensure consistency in results, increase reliability, and minimize errors or variations in data interpretation. Being precise also allows for better comparison between different studies or experiments.
It is precise to one decimal place.
Both can be precise it depends on what you are measuring
measuring
Precise: Meridith was very PRECISE with her measuring: she'd make sure the sugar was EXACTLY a cup, no more and no less.
No. Accurate relates to how close the actual measurement the instrument measures. Precise relates to how much detail the instrument gives when measuring. They are independent to each other: An measurement can be precise and accurate (eg the value of π is 3.141592654) An measurement can be precise and inaccurate (eg the value of π is 1.733677432) An measurement can be less precise and accurate (eg the value of π is 3.14) An measurement can be less precise and inaccurate (eg the value of π is 1.73).
Calibrating the balance ensures that it is measuring accurately by accounting for any errors or drifts in its readings. This helps to obtain precise and reliable measurements when weighing objects.