Original density = M/V
New density = (KM)/(KV) = (K/K) (M/V) = original density.
If the mass and volume both increase by the same factor, the density is unchanged.
It only means that you have a larger piece of the same substance.
For example are affected the melting point, boiling point, density, reactivity, etc.
At the boiling point of a liquid, the temperature remains constant because the heat energy being added is used to overcome the intermolecular forces holding the liquid molecules together, rather than increasing the kinetic energy of the molecules. This energy is used to break the bonds between the molecules, allowing them to escape as vapor. Once all the liquid has been converted to vapor, the temperature will begin to rise again as additional heat energy increases the kinetic energy of the vapor molecules.
When a substance undergoes a phase change, such as melting or boiling, heat energy is added, but the temperature remains constant. This is because the added energy is being used to break the intermolecular forces holding the substance together, rather than increasing the kinetic energy of the particles.
It just is that two species competing for the same resource can not exist if all other ecological factors are held constant. Held constant is important here. A time varience in species feeding, such as diurnal vs nocturnal would not be holding ecological conditions constant. so, if held constant in ecological conditions, one species woul be excluded from the resource.
Objects float (or not) because of their density. In this case, it means that the molecules in it are either packed up really tight, or just loosely holding onto eachother. Water has what is considered an average density. Rocks have a high density. You can tell by holding one, and noting that for how large it is, it is quite heavy. Because of this trait, they sink in water. Some woods, on the other hand, are light as a feather when being even larger than the rock, and because of this, they float on water.
Holding volume constant while increasing mass will increase density. density = mass / volume
(mass) Density is mass/volume, so increasing the volume with mass held constant will decrease the density.
it doesnt change
The density will increase.
Density would be reduced. Density is a measure of the mass per unit volume. For example, 10 particles per cubic mL. If you made the vollume bigger but kept the mass the same, there would be more room for the ten particles to spread out, they'd be further away from each other so the density would be less.
For example are affected the melting point, boiling point, density, reactivity, etc.
It makes your density thicken.
At the melting point, the temperature remains constant because the energy being absorbed is utilized to overcome the intermolecular forces holding the solid together, rather than increasing the temperature. Similarly, at the boiling point, the temperature remains constant as the energy is used to break the intermolecular bonds holding the liquid together, allowing the substance to transition into the gas phase.
"Inflated" means "artificially high" in general usage. In economics, it refers to the process by which, holding the real value of goods constant, their nominal values increases. This translates into increasing price levels.
soil is affected more by sunlight due to it holding a higher water content.
ceteris paribus
Sure, reduce the pressure.Boiling can be produced either by:raising temperature while holding constant pressurelowering pressure while holding constant temperature