By measuring it in a measuring cylinder or beaker or some container of a known volume.
The mass of a liquid can be determined by measuring the volume of the liquid using a graduated cylinder or similar apparatus, and then multiplying the volume by the density of the liquid. The equation commonly used is mass = volume x density.
Use a container with a liquid (water). Mark the level of the liquid on the container. Insert the small solid sample. Mark the level of the liquid now on the container. compute the difference between the two marks. You can use traditional computation for calculating volume.
Density of any liquid can be determined by weighing exact volume of liquid and dividing weight observed by the volume of liquid taken.
Volume is the space an object takes up. Liquid volume is the space a liquid takes up. There is really no difference, except that sometimes someone will state a volume in liquid ounces so as to differentiate between ounces, which is a unit of weight or mass. (For instance, 16 ounces is one pound, while 16 liquid ounces is one pint.)
The volume must be determined; try the method of liquid displacement using an anhydrous mineral oil.
The volume of a solid object such as a rock or pebble can be determined by submerging it in a liquid in a graduated cylinder or other container. The difference in the volume of the liquid is the volume of the object.
The mass of a liquid can be determined by measuring the volume of the liquid using a graduated cylinder or similar apparatus, and then multiplying the volume by the density of the liquid. The equation commonly used is mass = volume x density.
A gas. Gas will expand to fill the available space.
Use a container with a liquid (water). Mark the level of the liquid on the container. Insert the small solid sample. Mark the level of the liquid now on the container. compute the difference between the two marks. You can use traditional computation for calculating volume.
evaporation speed is determined by temperature, humidity and exposed surface area
The volume of liquid a pipette delivers is determined by the calibration markings on the glass tube. Pipettes are calibrated to deliver a specific volume accurately when used according to the manufacturer's instructions. It is essential to always read and follow the calibration guidelines to ensure precise liquid measurements.
Weigh the object. Determine the volume. Divide the mass by the volume to get the density. To get the volume of an irregular shaped object can be challenging especially if there are cavities (holes) in it. submersion in a liquid or powder of known volume might be possible. Measure the difference in the volume of the liquid and the liquid + the object (making sure the object is entirely below the surface of the liquid and that any cavities are filled).
Mass and volume are not determined by density. Rather density is determined by mass and volume
Density of any liquid can be determined by weighing exact volume of liquid and dividing weight observed by the volume of liquid taken.
The volume of a solid is fixed and maintains a specific shape. The volume of a liquid is determined by its container but it takes the shape of the container. The volume of a gas is not fixed and expands to fill the available space.
Volume is the space an object takes up. Liquid volume is the space a liquid takes up. There is really no difference, except that sometimes someone will state a volume in liquid ounces so as to differentiate between ounces, which is a unit of weight or mass. (For instance, 16 ounces is one pound, while 16 liquid ounces is one pint.)
The volume of a very small needle can be determined by measuring its dimensions (length, diameter) and calculating its volume using mathematical formulas for the shape of the needle (cylinder, cone, etc.). Alternatively, the needle can be immersed in a known volume of liquid and the displacement of the liquid can be used to calculate the volume of the needle.