The simplest way is water displacement.
Density is equal to mass per volume. You can use any conventional scale to find the mass of the object.
You can then take a container that is considerably larger than the object and fill it with enough water to be able to cover the object. Measure how much water is in the container, then place the object in the water. Now measure how much water appears to be in the container now (the water level will rise). The difference between the two water levels will be the volume of your irregular shape. Now you divide the mass by the volume and get the density.
In order to measure density of any object we need it Mass/Weight and its volume.
1. Measure the weight M using a weighing scale.
2. Take a vessel big enough for the object.
3. Put this vessel above a plate
4. Fill the Vessel with water to the Brim.
5. Gently Place the object in the Vessel
6. Collect the water that overflows into the plate.
7. Measure the volume of Water using any Measuring Jar. If such a jar is not available measure the weight of the plate with water. Remove the water and dry the plate. Measure the weight of the Plate.
Vol= V=As in the Measuring Jar=Weight of the plate+water-weight of the dry plate.
Density= M/V
Measure the displacement of water when the object is submerged in water. This gives the volume ; then weigh the object and divide the weight by the volume to get the density.
To measure the density of the empty school bag including the air in the bag, you should be able to simply weigh it, and measure its dimensions, and calculate the density, which is weight divided by volume. Bags have a more or less rectangular shape, so the volume is simply length times width times height. If you want to measure the density of the material from which the bad is made, that is a little more complicated, and might require you to squeeze the bag into some kind of compact, easily measured shape, that does not contain air.
Changing the shape CAN change the density. If you change it into a smaller shape, then you increase the density. However the mass will not change.
-- Measure its mass. -- Measure its volume. -- Divide its mass by its volume. The result is its density.
The density of a substance is the ratio of its mass to its volume. So, I would measure the mass and volume of a substance to calculate density.
If its a normal one then a hexagon but if it is irregualar (not being symetrical) then it is called a irregular haxagon Hope that helps x
Bones that are irregular in mannor
Measure the displacement of water when the object is submerged in water. This gives the volume ; then weigh the object and divide the weight by the volume to get the density.
Measure the displacement of water when the object is submerged in water. This gives the volume ; then weigh the object and divide the weight by the volume to get the density.
To measure the density of the empty school bag including the air in the bag, you should be able to simply weigh it, and measure its dimensions, and calculate the density, which is weight divided by volume. Bags have a more or less rectangular shape, so the volume is simply length times width times height. If you want to measure the density of the material from which the bad is made, that is a little more complicated, and might require you to squeeze the bag into some kind of compact, easily measured shape, that does not contain air.
You describe the shape, not of the data set, but of its density function.You describe the shape, not of the data set, but of its density function.You describe the shape, not of the data set, but of its density function.You describe the shape, not of the data set, but of its density function.
Changing the shape CAN change the density. If you change it into a smaller shape, then you increase the density. However the mass will not change.
Hydrometer measure the density of liquids.
Changing the shape CAN change the density. If you change it into a smaller shape, then you increase the density. However the mass will not change.
Density is weight divided by volume. Measure the weight (with a scale), calculate the volume (which is easy to do if the foam is rectangular in shape - you might even want to cut out a rectangular piece, if your foam has an irregular shape), and divide the weight by the volume.
No. As I'm sure you've seen density tables for certain minerals in geology textbooks, size and shape do not affect density. If you have a pure form of a certain mineral, it's density will be constant, (ex: Pyrite cube vs pyrite massive will have the same density). If you had a large massive of galena and a small cube of galena, they will still have the same density. Pour space, cracks in the rock or mineral you're measuring might absorb some water during testing, so be sure to measure the weight in air first and then carefully measure water volume before you measure weight in water for the most accurate results.
No. Density is an intensive property.