its millilitres
73 + 25 = 98 means that there is 2 ml of space in the cylinder before there is a risk of the liquid overflowing.
A 50-mL graduated cylinder marked into 1-mL segments would have markings at every 1 mL increment from 0 to 50 mL. This means it would have a total of 50 markings on the cylinder at every 1-mL interval.
The increase in volume of the water when the cylinder is added is equal to the volume of the cylinder. So, the volume of the cylinder is 21.4 mL - 15 mL = 6.4 mL. Since the metal cylinder is immersed in water, the volume of the metal cylinder is 6.4 mL.
The accuracy of a graduated cylinder depends on its calibration and the smallest increment on its scale. The precision is determined by the volume intervals marked on the cylinder. Graduated cylinders are used to measure and hold liquid volumes with good accuracy and precision in experiments and laboratory settings.
0.1
65 - 40 = 25 ml
ML 430 cylinder diagram
The smallest fractional unit for a 10mL cylinder is likely 0.1 mL, as most cylinders are calibrated in increments of 0.1 mL.
The uncertainty associated with measuring volume using a 25 ml graduated cylinder is typically 0.5 ml.
A graduated cylinder typically uses milliliters (mL) as the standard unit of measurement for volume.
A 100 mL graduated cylinder is graded in divisions of 1 mL giving results which have 2 significant figures. Cylinders for measuring up to 10 mL to have divisions at 0.1 mL, so again giving 2 sig figs.2 digits. .