The slop of a line which represents mass over volume would give you density.
volumetric flow meter are used in application where density changes,it means volume of the substance is changing.For e.g. in natural gas pipe line pressure varies,so as the density.
Light travels in straight lines when the medium's density is constant. When light enters a different density perpendicularly, it also travels in a straight line. When light enters a higher density at an angle, it bends towards an imaginary line perpendicular to its pont of entry. When light enters a lower density medium, it bends away from the imaginary perpendicular line. This is seen with objects partially submerged in water. The light exits the water and bends away from its normal path, making the object appear crooked in relation to the unsubmerged portion. Sometimes light will be reflected at the boundary of two mediums. This is seen in optic fibres.
DENSITY : density is the ratio of mass and volume of the substance density=mass/volume RELATIVE DENSITY : It is the ratio of density of a substance to the density of water
relative density is related to the density of water. i.e. a relative density of 19.3 means that it has a density 19.3 times the density of water. The density of water is 1g/ml therefore the density of gold is 19.3g/ml
Density is the slope of the line. density = mass/volume = constant. Since mass and volume have a linear relationship, then that constant is also the slope of the line on a graph of a comparison of mass to volume ratios.
A probability density function.
because of serenity and density
isorithm
it is less dense
The slop of a line which represents mass over volume would give you density.
The Density Property states that, between two rational numbers on a number line there is another rational number. Mark some fractions on a number line. No matter how dense the number line is, there still is another number between the two numbers.
yes. If the data is scattered on the graph, you need to form a LSRL (least squared regression line), which is simply a line of best fit. However, if your data is precise, you can take any point and divide the mass at that point by the volume. If you make the LSRL, do the same thing with a point on the line.
mass and volume measurements for any sample liquid should fall along the graph line because liquids have a constant density. Density is mass over volume. Mass equals density which is a constant time volume.
by expending the port density.
False
If you were to graph particle size and porosity, it would be a constant slope (horizontal line).Porosity is not affected by particle size.