If you know the density of the liquid, scales could be used to determine the mass and then plugged into the equation:- volume = mass/density A measuring cylinder could also be used. Stuck on the third one though...I guess you could use a burette, but generally they're only used for titrations.
A Graduated Cylinder, Burette, and Pipette. Each have different procedures for usage. The simplest one to use being the graduated cylinder.
graduated cylinder, beaker, erlenmeyer flasks
a cube with three sides measuring 1 yard, it's just a unit of volume so it could actually be any shape
The three coins would have a volume of 33ml. This can be seen from the simple calculation: 53ml - 20ml = 33ml.
Volume is defined only for three-dimensional objects. A perfectly flat surface (impossible to find or create in our three-dimensional physical world) cannot have a volume.
mass, volume, and density
Three units! There are nearly 50 units for measuring mass. And that is without any of the multitude of metric units: nanogram, microgram, milligram, gram, or intermediate measures. See the Wikipedia link.
3 apparatus use for measuring liquids
to measure volume the object must be three dimensional. the purpose of measuring the volume of an area is to know its capacity
Examples: silver nitrate, barium chloride, sodium carbonate.
Cubed. The reason is that space has three dimensions - and that is basically what we are measuring.
Its volume measured in cubic units.
Graduate Cylinders, Burettes, Glass pipettes
A cubic metre is the easiest way to take a unit measure for length and apply it for three-dimensional space. In this sense, it is measuring volume.
It depends what you are measuring. Cups is a volume and pounds is a weight.
An approximate volume can be calculated by assuming the classroom is a cuboid (which it nearly is, except for windows, doorposts, etc) and measuring its length, its width and its height and multiplying the three lengths together. For a more accurate value, measure the largest cuboid that would fit in the room, calculate its volume and then add on the volume of every little nook and cranny of the classroom (by measuring them and calculating their volume).
A solid shape.
it can remove items from other items thanks for reading :)
You need three dimensions to calculate thevolume of the pool: Length X Width X Depth (height) = Volume.