width, length, and height
height length depth or x , y, and z
The water displacement method is typically used to find the volume of an irregular solid. The object is submerged in a known amount of water, and the increase in water volume is measured. This increase in volume is equal to the volume of the irregular solid.
Water Displacement technique
Liquid displacement
A ruler to find the measures of the edges and a brain to multiply them together.
height length depth or x , y, and z
The water displacement method is typically used to find the volume of an irregular solid. The object is submerged in a known amount of water, and the increase in water volume is measured. This increase in volume is equal to the volume of the irregular solid.
Yes. You can find the dimensions of the object (Assuming the dimensions are measurable) and calculate its volume in centimeters cubed.
There kind of solid object will determine the formula that will be used to find its volume.
Volume can only be measured in 3 dimensions. This formula is used to find the space in a sphere, cone, cube, cylinder, prism, or other such object.
A ruler is used to measure length and does not account for the height or width of an object, which are necessary to calculate its volume. To find the volume of a paperclip, you need to measure its dimensions in three dimensions using a tool such as a caliper or by using a water displacement method.
10-mL graduated cylinder
Water Displacement technique
Liquid displacement
Archimedes' principle is used. Water will be displaced by the volume of what is put into it. That displaced volume can be measured giving the weight.
A ruler to find the measures of the edges and a brain to multiply them together.
To measure the density of a regularly shaped solid, common tools used include a balance or scale to measure the mass, and a ruler or caliper to measure the dimensions (length, width, and height) of the solid. With this information, the density can be calculated by dividing the mass by the volume of the solid, which can be determined by multiplying the three dimensions together.