If you use the formula:
M/V it will compare the different minerals
No. it is flipped a rock contains two or more types of minerals
The two rocks in question may have different percentages of the same minerals, or their method of formation could be different, which can affect the shape and size of the mineral grains. Trace minerals in the two rocks could also alter their appearance, as well as the amount of weathering the rocks have been exposed to.
Since rock A is bigger but has the same mass as rock B, it will have a lower density compared to rock B. Density is calculated by dividing mass by volume, so the larger volume of rock A will result in a lower density.
The vast majority of rock is a combination of two or more minerals.
Their densities. Their volumes. Their solute molarity. How can I tell? Density = grams/milliliters so, three things can vary here, but since they are different liquids and I may assume the same volume, though you did not say that, I will say Density, final answer.
compare is when you compare two things that are the same and contrast is when you compare two things that are different.
Two different minerals can be the same color or two of the same minerals can be different colors.
Two objects can have different volumes but the same density if they are made of different materials. Density is a measure of how much mass is packed into a certain volume, so objects with different volumes can still have the same density if their masses are adjusted accordingly.
The answer will depend on what you wish to compare. There are different methods to compare the means, variances as well as other characteristics of the two sets.
The density of two pennies would be greater than the density of one penny, as the mass of two pennies is double that of one penny while their volume remains the same. Therefore, the total mass is concentrated in a smaller volume, resulting in a higher density.
you can not compare them, there two different kind of sites.
It is to compare the two different inputs
Density is defined as mass per unit volume, which is why it combines two units: mass (typically grams or kilograms) and volume (usually liters or cubic meters). This relationship allows for a comprehensive understanding of how much matter is contained in a given space. By expressing density in these combined units, we can compare the compactness of different substances effectively.
The definition of density is the amount in a given volume.
A bar graph would be best to compare the nutrients in two different types of bread.
A gram is a unit of mass. A millilitre is a unit of capacity. Without some unit of density to compare, the two units are therefore incompatible.
You can compare the energy carried by two different longitudinal waves by calculating the wave's energy density, which is proportional to the square of the amplitude of the wave. The wave with the higher amplitude will carry more energy. Additionally, the frequency of the waves also affects the energy they carry - waves with higher frequencies carry more energy.