Yes, because the definition of a solution is a homogenous mixture. Therefore, one part of the solution will have the sample definite properties as the entire solution.
You wouldn't get the right reading of volume of the object, so you're density calculation would be off.
60g/kg
Density = mass / volume As sample size increases, both mass and volume increase in the same ratio.
Volume of a substance is measured in cubic units and is given by dividing its mass by its volume. In this case it is not possible to find the density of the cork since 2.71cm2 is a measurement of an area.
Density is defined as mass / volume. Solving for mass: mass = density x volume In other words, all you have to do is multiply the density times the volume, to get the mass. Answer:0.8 mg
I measured a density of 1.0663 g with a sample size of 50.
By taking a sample of the entire population.
Yes it can; given that the population number is reasonable and it can be done in a reasonable amount of time.
Its density. Density is mass per unit volume.
Density of a substance = (mass of a sample of it)/(volume of the same sample)
Density is the measure of mass per unit volume. Volume cannot be measured in centimetres (cm). Without a measure of volume, the answer is indeterminate.
Volume cannot be measured in grams per cubic centimetres, density can.
When you measure the density of a substance, you only have to tell other people what the substance is, and what number you measured for the density. You don't have to tell them how big the sample was that you measured, or what its color, weight, cost, age, or shape were, whether it was handsome or ugly, rough or smooth, slimy or dry, because none of those has any effect on its density. (The temperature might. Go ahead and tell them about that.)
The density of the sample is about 2.14 g/mL
Density of a substance = (mass of a sample of the substance) divided by (volume of the same sample)
Porosity is measured by taking a sample of the soil. The sample is then tested to measure the speed of water passing through the soil.
I have no clue. Sorry. :( ^^ Ignore that ^^ I think Density = mass/volume.