This is very much dependent on the brand of syringe you buy. Many have this value printed on the packet for your convienence.
The uncertainty associated with measuring volume using a 25 ml graduated cylinder is typically 0.5 ml.
The uncertainty associated with measuring volume using a 100 ml beaker is typically around 1 ml.
Sulfuric acid is highly corrosive, so it can be added using a measuring cylinder because it is more resistant to the acid's corrosive properties compared to a pipette. Using a measuring cylinder allows for easier and more accurate measuring of larger volumes of sulfuric acid compared to a pipette.
Factors that contribute to the uncertainty of a scale measurement include the precision of the scale, the skill of the person using the scale, environmental conditions, and the inherent limitations of the measuring instrument.
Using a gas syringe is typically better when the gas is soluble because it allows for direct measurement of the volume of gas collected without worrying about gas dissolving in the liquid. Measuring cylinders, on the other hand, may result in inaccurate readings due to the dissolution of gas in the liquid.
The uncertainty associated with measuring volume using a 25 ml graduated cylinder is typically 0.5 ml.
The uncertainty associated with measuring volume using a 100 ml beaker is typically around 1 ml.
The uncertainty associated with measuring length using a meter stick is typically around 0.5 millimeters. This means that the measurement could be off by up to half a millimeter due to factors like human error or the precision of the instrument.
Sulfuric acid is highly corrosive, so it can be added using a measuring cylinder because it is more resistant to the acid's corrosive properties compared to a pipette. Using a measuring cylinder allows for easier and more accurate measuring of larger volumes of sulfuric acid compared to a pipette.
Jeffrey A. Worm has written: 'Measuring uncertainty by extracting fuzzy rules using rough sets' -- subject(s): Uncertainty (Information theory)
Graduated cylinder
Graduated measuring cylinders are generally used for measuring liquids.
Using a 10 ML graduated cylinder you can read 2 decimal places. This is also measuring volume.
Factors that contribute to the uncertainty of a scale measurement include the precision of the scale, the skill of the person using the scale, environmental conditions, and the inherent limitations of the measuring instrument.
To measure a rock using a measuring cylinder, you can follow these steps: Fill the measuring cylinder with water up to a marked level. Note down the initial water level. Carefully place the rock into the water, ensuring it is fully submerged. Measure the new water level and calculate the difference to determine the volume of the rock.
I think you are talking about a graduated cylinder. When measuring liquids in a grad. cylinder you should read at the bottom of the miniscus ( the curved surface of the water or other liquid).
The volume of the stone is measured by displacement. Water is put into the measuring cylinder to a noted mark. The stone is placed in the cylinder and the water level will rise. The difference between the two levels is the volume in ml of the stone.