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1. The accurate measurement of a gas and liquid is important to obtain specific proportions as per process requirement is necessary. 2. The maintenance of definite rates of flow is important for maximum efficiency and production. Without accurate measurements precise quality is control is impossible. 3. Costs which are based on flow measurements will be incorrect if the measurement are erroneous because huge volumes of gas, steam and liquid may have to be measured daily, a very small %age error can amount to large sums.
To obtain accurate measurements.
It depends on the size and mass of the rock. For a "normal" rock (as opposed to merely a stone) I suggest a crane with some means for measuring the rock's mass. A number of pulleys, each with a weighing machine should do the trick. Alternatively, you could use a weighbridge, if there is one in the vicinity. To obtain its volume, you probably need a 3-d laser-profiling device. That should give the most precise measurement of its volume.
Multiply the acre by 43,560 and you will obtain square feet (ft^2). This is an area measurement not a length one.
While made to be as acurate as possible, typical scales have error systematically as a part of their measurements. If you place an object directly on the scale, it will be effected by this error (keeping you from obtaining an accurate result). Instead, measure the weight of object A, then add object B. You are able to calculate the difference and obtain an exact measurement since both objects are subject to the same error.
The most important part about measurement is accuracy. It is crucial to ensure that measurements are precise and consistent to obtain reliable data and make informed decisions. Calibration and proper units of measurement are also important considerations in the process.
it directly obtain a more precise measurement
to obtain an accurate measurement of a patient's height
to obtain an accurate measurement of a patient's height
1. The accurate measurement of a gas and liquid is important to obtain specific proportions as per process requirement is necessary. 2. The maintenance of definite rates of flow is important for maximum efficiency and production. Without accurate measurements precise quality is control is impossible. 3. Costs which are based on flow measurements will be incorrect if the measurement are erroneous because huge volumes of gas, steam and liquid may have to be measured daily, a very small %age error can amount to large sums.
To obtain an accurate measurement of volume in titration, it is important to read the bottom of the meniscus at eye level. This ensures that parallax errors are minimized and the volume is correctly determined.
Direct measurement is used to obtain accurate and precise data without relying on estimation or inference. It provides objective and concrete information that is essential in research, experimentation, and various scientific fields. By directly measuring variables or quantities, researchers can gather reliable and verifiable data to draw conclusions and make informed decisions.
The thimble on a micrometer screw gauge is used to apply a precise amount of pressure to the object being measured. This helps to ensure accurate and consistent measurements by minimizing external factors that could affect the reading. The thimble also allows for fine adjustment of the spindle to obtain the most accurate measurement possible.
That is the correct spelling of "exact" (precise, accurate).
Zeroing a spring scale ensures that it reads accurately by accounting for any variations or offsets in its baseline measurement. By zeroing the scale before each use, you can obtain precise weight measurements and minimize errors in your readings.
Waiting for the thermometer reading to stop changing ensures an accurate and stable temperature measurement, preventing any potential error due to fluctuations in the reading. This practice helps to obtain a reliable and precise result for the patient's temperature assessment.
Conical graduates are typically used in laboratories for accurate measurement of liquids, especially in chemistry or biology experiments. They are designed with a tapered shape to allow for precise volume measurements at various levels.