Classification of Matter
Classification of Matter
Before we classify the matter, let us
understand the meaning of matter. Matter is anything that occupies the
space and has a mass. For example, your textbook, trees, table, etc. Then what
is the mass? The mass is the amount of matter in an object, which is not
the same thing as its weight. The weight is a measure of the
gravitational force exerted on an object. As long as the gravity is uniform
(earth’s surface), the weight does not change. Hence, we can freely use the
word mass or weight; it does not make any difference. However, if the
gravitational forces are not the same (earth vs. moon), the weight differs from
the mass. For example, the same astronaut (same mass) weighs differently on
earth and on moon.
The matter can be classified in two different ways; (a) according
to its state, and (b) according to its composition.
The States of Matter: Solid, Liquid, and Gas
Matter can exist in three different states, solid, liquid, and
gas, based on the way the atoms and molecules are arranged inside them. These
three states are known as three different states of matter. In solids,
atoms or molecules are tightly bound to one another thereby creating a rigid
nature. Each atom or molecule is caged by its neighbors creating non-mobility,
although they might vibrate around the equilibrium position. Here attractive
forces are very strong. Consequently, solids have definite shapes and volumes.
Some examples of solids are diamond, metals, and ice.
In
liquids, the atoms or molecules are not as tightly bound as in solids
and due to that they have some freedom to move around. They still experience
attractive forces but not as strong as solids. In addition, they also begin to
experience some repulsive forces. Thus, liquids have definite volume but not
definite shape- they assume the shape of the container. Due to their
flexibility, the liquids can be poured from one container to another. Some
common examples are water, gasoline, and alcohol at room temperature.
In
gases, the atoms or molecules are far apart due to they are not bounded
at all, meaning, they do not have any attractive forces but only repulsive
forces. Due to that they can occupy a large volume. They do not have their own
shape or volume, but assume the shape and the volume of the container. Some
common examples are oxygen, hydrogen, and helium at room temperature.
Classification of Matter based on Composition
When
we talk about matter, usually we talk about a substance, which possesses
distinct properties and has a definite composition. For example, sugar
(sucrose), table salt (sodium chloride), water, gasoline, etc. All substances
do not have the same composition but yet can be identified by their unique
properties.
Matter
is
classified into two broad categories, namely, pure substances and mixtures.
Mixtures can be separated into pure substances by physical methods. Pure
substances are further divided into categories as elements and compounds.
Similarly, mixtures are also classified into types; homogeneous mixtures and
heterogeneous mixtures:
A
pure substance can be either an element or a compound. First of all, the
elements are the building blocks of our nature. An element is a
substance that is either discovered in
2
nature
or synthesized in the laboratory in pure form that cannot be separated into
simpler substances by chemical methods. Currently, there are
about 118 elements discovered; some are found in nature and some are man-made.
In order to call it as an element, its properties must be unique; no two
elements are alike. Elements carry the names and symbols. Some common elements
and their symbols are listed in the following table in alphabetical order.
Few things to know
about the elements:
Names of the elements are given by its
inventor(s). Some times, they are named after the place like an element
Berkelium (Bk) after its discovery in Berkeley (University of California,
Berkeley). Some times, their names are based on planet, like element Mercury
(Hg) named after the planet mercury. Some times, the name is given to honor the
great scientist, like Curium (Cm) after Madame Curie.
Symbols are the short-hand notations for
elements consisting of one or two letters. The first letter is always in upper
case and the second one in lower case. Most of the symbols are derived from
their English names except few that are derived from their Latin names (see the
above table). One-letter symbols are taken from the first letter of the name.
The two-letter symbols are derived in various ways. Some symbols are derived by
the combination of the first letter and the second letter (e.g. Ba for Barium),
some are of the first letter and the third letter (e.g. Cl for chlorine), etc.
Nb: Sumber Pdf from google search
Can you explain what holds an electron revolving around the nucleus? Why don't they just go zooming around everywhere?
BalasHapusAccording to Model Atom Bohr
HapusThe Bohr model of a hydrogen atom describes negatively charged electrons orbiting the skin of atoms in a particular trajectory surrounding the nucleus of positively charged atoms. When electrons jump from one orbit to another orbit is always accompanied by the transmission or absorption of a certain amount of electromagnetic energy
According to Bohr:
"There are rules of quantum physics that allow only a certain number of electrons in each orbit. There is only room for two electrons in the nearest orbit of the nucleus.
What differentiates the compound with a mixture of??
BalasHapusDifference between compound and mixture
HapusCOMPOUND
1) Formed by chemical reaction
2) Comparison of the components that make up the compound is always fixed
3) Compound components lose their original properties
4) Can not be separated into its components by physical means, but must be through chemical reactions.
MIXED
1) Formed without chemical reaction
2) Comparison of components that make up the mixture is not certain and careless
3) The mixed components still have their respective properties
4) Can be separated into its components by physical means
So what is the conclusion of the material that you post?
BalasHapusTry to name the characteristics of liquid ?
BalasHapusThe solution is a homogeneous mixture consisting of two or more substances. Substances that are fewer in solution are called soluble substances or solutes, while substances that are more numerous than other substances in solution are called solvents or solvents. The solute and solvent composition in solution is expressed in solution concentration, while the process of mixing solutes and solvents to form a solution is called dissolution or solvation.
HapusWhat causes the difference between organic and inorganic compounds? of structure? or other. Please explain
BalasHapusDifference Between Organic And Inorganic Compounds:
Hapus1. Organic compounds
- low melting point and boiling point
- unbearable against heating
- binds covalently
- generally not soluble in water
- the reaction between molecules lasts a long time
2. Inorganic carbon compounds
- high melting and boiling points
- resistant to heating
- there is something to do with covalent ions
- generally soluble in water
- ionic reactions take place
Thankyou zura
GitgitMercury (Hg) is an elemental type. Where is it? And what is the effect if the unnsur gets into our body?
BalasHapusMercury is found in nature and spreads in rocks, minerals, soil, air and air as inorganic and organic compounds.
HapusThe use of mercury continuously it was originally made the skin smooth, but then mercury it settles under the skin. After years of new skin we will be damaged, will be blackish even can trigger the onset of cancer.
What is the rigid nature of solids?
BalasHapusThe solid particles have the following properties:
Hapus1. Parikel-particles are secret of a fixed position, if the article substance in the position of the common position is called a crystal, and if the particles of substances in the material padatui irregular, then called amorphous.
2. The attraction between the particles is very strong, and
3. Movement of particles is only illustrated around its fixed position.
The position of the particle. Movement of particles that just vibrate cause solids can not flow. Examples of solids are stone, wood, glass, and so on.
Some symbols are derived from a combination of the first and second letters (eg Ba for Barium), there are also the first and third letters (eg Cl for chlorine). Is there a chemical symbol taken from the last letter?
BalasHapusI think it does not exist because it is usually taken from the first or second letter.
HapusThe problem can be classified in two different ways; (A) in accordance with its circumstances, and (b) in accordance with its composition. Please give examples in both ways like what?
BalasHapusWhen we talk about matter, usually we talk about a substance, which possesses distinct properties and has a definite composition. For example, sugar (sucrose), table salt (sodium chloride), water, gasoline, etc. All substances do not have the same composition but yet can be identified by their unique properties.
Hapus