Density is a physical property that is often correlated with chemical composition. For example, most metals are denser than any non metal elements, and most hydrocarbons are less dense than water.
Density is the quantity of mass of one thing divided by its volume. Example If you say: "The water density is 1g/cm³" you are saying that in one cm³ of water there is 1g of water. The formula that represents the density is: d=m/v d: density; m: mass; v: volume
the density property is the property that states that between any two real numbers, there is always another real number.
the physical property of density is the amount of mass for a given volume
a measure of one specified component's amount in a substance ") study ILAND
a measure of one specified component's amount in a substance
Such basic property is Density of material.
Density is the ratio of mass to volume of a sample of a substance. If any two of the properties mass, volume, and density are known, they may be used to calculate the third property.
Temperature
The mass of an object tells how much matter is present in the object. The weight tells how strongly gravity pulls it down.
The worlds most famous equation, E=mc^2, describes the relationship between matter and energy. The energy contained in matter is its weight in kilograms times the speed of light (300 000 000 m/s) squared, an enormous number. One of the most basic laws of the universe is that energy never can disappear or be created, but it can change form. E=mc^2 tells us that matter is simply one form of energy, and it can change form into another form of energy, destroying the matter in the process. Perhaps the best example is anti-matter which will annihilate with ordinary matter and release all the energy concentrated in it as light, destroying both the particle and its anti-particle. The reverse is also possible: a sufficiently energetic photon can create a particle and an anti-particle, destroying the photon.
This is not strictly true, although it depends on your definition of 'destroyed'. Einstein's famous theory of general relativity shows the equivalence between mass and energy (mass being a property of matter). We do not tend to think of energy as matter.We know that mass can be converted to energy and vice versa (in nuclear reactions both in nature and on earth). If mass is converted to energy, then some of the matter that produced that mass no longer exists as matter, but as energy. This is, strictly speaking, not destroyed, but it is no longer matter.The first law of thermodynamics tells us that energy cannot be created or destroyed, and so we know that any mass that is converted to energy will always exist, even if no longer as matter.
Simple:Inertia is the characteristic of an object that resists change in motion.Inertia is quantified as mass. We say a 2 kg object has twice the inertia as a 1 kg object.More:We say that Newton's first law is the law of inertia. Basically, Newton's first law asserts that this characteristic exists and is associated with all objects.(A thousand years ago, people believed in magic and all sorts of things, so an assertion that there is something called inertia and it is a universal characteristic is not so trivial as it might sound now. As a side note, this law of nature was known before Newton, specifically, we know that Galileo had the correct formulation.)One quantifies this characteristic of inertia with mass. Mass is the thing that tells us how acceleration is proportional to force. We say a 2 kg object has twice the inertia as a 1 kg object. Newton's second law says this works the same for all object and the proportionality is the same for all forces.
Flammability is a chemical property that indicates how well a substance reacts with the element oxygen. Flammability requires oxygen in air for a substance to ignite, or lead to combustion. In regards to flammable liquid, a term often used is flash point, which is the minimum temperature required by flammable liquids to give off enough vapors into the air and begin to burn at their surfaces.
The physical property that tells you how hot or cold matter is, we call temperature. Temperature consists of random motion on the atomic or molecular scale. Faster moving particles have higher temperatures.
Its physical dimentions
Luster is a physical property of crystals.
If i get the awnser ill tell you.
It's point (freezing point)
indentity property
Temperature is a physical property of matter that quantitatively describes common notions of hot and cold. It generally tells us how fast molecules are moving with respect to each other. Temperature is related to the entropy of a system; formally defining it would require knowledge of statistical thermodynamics.
because it is a characteristic property of matter
size
There is no property of multiplication that transposes numbers.
volatility is a property of matter. volatility of matter tells u the ability of that particular matter to evaporate. certain type of matter may have high degree of volatility where as others may have low or even no volatility.. eg: petrol is highly volatile. Even if it is left for a small time in the sun, it will evaporate very quickly.
because the way a story is told depends on who tells it (apex)