Classification Of Matter
Classification 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.
1) Atom
Atoms are the basic units of matter and the
defining structure of elements. Atoms are made up of three particles: protons,
neutrons and electrons. Protons and neutrons are heavier than electrons
and reside in the center of the atom, which is called the nucleus. Electrons
are extremely lightweight and exist in a cloud orbiting the nucleus. The
electron cloud has a radius 10,000 times greater than the nucleus. Protons and neutrons have approximately the same mass.
However, one proton weighs more than 1,800 electrons. Atoms always have an
equal number of protons and electrons, and the number of protons and neutrons
is usually the same as well. Adding a proton to an atom makes a new element,
while adding a neutron makes an isotope, or heavier version, of that atom.
2) Element
An
element is a substance consisting of atoms which all have the
same number of protons or the same atomic number.
List
of facts about Chemical Elements:
- Elements consist of only one type of atom. Which may,
or may not be joined together for
molecules or large structures
-
Elements
can exist either as atoms (e.g. : argon) or as molecules ( e.g. nitrogen)
-
Elements
cannot be broken down into a simpler type of matter by either physical or
chemical techniques, though some larger elements break-down spontaneously due
to being radioactive
-
Elements are listed in the periodic table
3) Compound
In
chemistry, a compound is a substance that results from a combination of two or
more different chemical element s, in such a way that the atom s
of the different elements are held together by chemical bonds that are
difficult to break. These bonds form as a result of the sharing or exchange of electron s
among the atoms. The smallest unbreakable molecule . A compound differs from a mixture,
in which bonding among the atoms of the constituent substances does not occur.
In some situations, different elements react with each other when they are
mixed, forming bonds among the atoms and thereby producing molecules of a
compound. In other scenarios, different elements can be mixed and no reaction
occurs, so the elements retain their individual identities. Sometimes, when
elements are mixed, the reaction occurs slowly (as when iron is exposed to
oxygen); in other cases it takes place rapidly (as when lithium is exposed to
oxygen). Sometimes, when an element is exposed to a compound, a reaction occurs
in which new compounds are formed (as when pure elemental sodium is immersed in
liquid water). Often, a compound looks and behaves nothing like any of the
elements that comprise it. Consider, for example, hydrogen (H) and oxygen (O).
Both of these elements are gases at room temperature and normal atmospheric
pressure. But when they combine into the familiar compound known as water, each
molecule of which contains two hydrogen atoms and one oxygen atom (H 2 O), the resulting substance is a
liquid at room temperature and normal atmospheric pressure. The atoms of a few
elements do not readily bond with other elements to form compounds. These are
called noble or inert gases: helium, neon, argon, krypton, xenon, and radon.
Certain elements readily combine with other elements to form compounds.
Examples are oxygen, chlorine, and fluorine.
4) Mixture
In chemistry, a mixture forms when two or more
substances are combined such that each substance retains its own chemical
identity. Chemical bonds between the components are neither broken nor formed.
Note that even though the chemical properties of the components haven't changed,
a mixture may exhibit new physical properties, like boiling point and melting
point.
EXAMPLES OF MIXTURES
- Flour
and sugar may be combined to form a mixture.
- Sugar
and water form a mixture.
- Marbles
and salt may be combined to form a mixture.
- Smoke
is a mixture of solid particles and gases.
TYPES OF MIXTURES
Two broad categories of mixtures are heterogeneous
and homogeneous mixtures. Heterogeneous
mixtures are not uniform throughout the composition (e.g.
gravel), while
homogeneous mixtures have the same phase and composition, no
matter where you sample them (e.g., air). The distinction between heterogeneous
and homogeneous mixtures is a matter of magnification or scale. For example,
even air can appear to be heterogenous if your sample only contains a few
molecules, while a bag of mixed vegetables may appear homogeneous if your
sample is an entire truckload full of them. Also note, even if a sample
consists of a single element, it may form a heterogeneous mixture. One example
would be a mixture of pencil lead and diamonds (both carbon). Another example
could be a mixture of gold powder and nuggets.
Besides being classified as heterogeneous or homogeneous,
mixtures may also be described according to the particle size of the
components:
Solution - A chemical solution contains
very small particle sizes (less than 1 nanometer in diameter). A solution is
physically stable and the components cannot be separated by decanting or
centrifuging the sample. Examples of solutions include air (gas), dissolved
oxygen in water (liquid), and mercury in gold amalgam (solid), opal (solid),
and gelatin (solid).
Colloid - A colloidal solution appears
homogeneous to the naked eye, but particles are apparent under microscope
magnification. Particle sizes range from 1 nanometer to 1 micrometer. Like
solutions, colloids are physically stable. They exhibit the Tyndall effect.
Colloid components can't be separated using decantation, but may be isolated by
centrifugation. Examples of colloids include hair spray (gas), smoke (gas),
whipped cream (liquid foam), blood (liquid),
Suspension - Particles in a suspension are
often large enough that the mixture appears heterogeneous. Stabilizing agents
are required to keep the particles from separating. Like colloids, suspensions
exhibit the Tyndall effect. Suspensions may be separated using either
decantation or centrifugation. Examples of suspensions include dust in air
(solid in gas), vinaigrette (liquid in liquid), mud (solid in liquid), sand
(solids blended together), and granite (blended solids).
Hi zelvy
BalasHapusexplain any reactions that might occur in the molecule?
Thank You
Well, The reaction that might be occur in the molecule is molecule reaction in precipitation reaction and in electrolytic reactions.
HapusIn electrolytic reaction, strong electrolyte solution be mixed with a weak electrolyte solution and electrolyte solution produces weak and strong electrolyte solution
Molecular reaction equation:
NaOH (aq) + CH3COOH (aq) ---> NaCH3COO (aq) + H2O (l)
S E W E W E S E
in the precipitation reaction molecular equation is an equation that wrote that all species-species considered as a molecule, and all of the compounds in writing without having to write a compound that plays a role in the sustainability of the precipitation reaction.
Can you explain what happen if compound 1 mix with compound 2 ? What the reaction that occur ?
BalasHapusOkay if compound 1 be mixed with compound 2 or another compound, the chemical reaction will be happening. The kind of reaction is diverse, depend what kind of compound which have being mixed. The types of reactions that will be occur is
Hapus1) Combination or Synthesis Reactions
In the synthesis reaction, two or more chemical compounds combine to form more complex products.
A + B → AB
The combination of iron and sulfur to form iron (II) sulfide is an example of the synthesis reaction:
8 Fe + S8 → 8 FeS
2) Decomposition or reaction Analysis
In the decomposition reaction of compounds are broken down into smaller chemical compounds.
AB → A + B
Electrolysis of water into oxygen and hydrogen gas is an example of the decomposition reaction:
2 H2O → 2 H2 + O2
3) Single displacement or Substitution Reactions
The reaction of the turn or the displacement reaction is characterized by an element that is removed from the compound by other elements.
A + BC → AC + B
Examples of substitution reactions occur when zinc combine with hydrochloric acid. Zinc replaces hydrogen:
Zn + 2 HCl → ZnCl2 + H2
4) Metathesis or Double Displacement Reaction
In double displacement or metathesis reactions, double bonds or ion exchanged compound to form different compounds.
AB + CD → AD + CB
Examples of the double displacement reaction occurs between the sodium chloride and silver nitrate and silver nitrate to form sodium chloride.
NaCl (aq) + AgNO3 (aq) → NaNO3 (aq) + AgCl (s)
5) Acid-Base Reactions
Acid-base reaction is a type of double displacement reaction that occurs between acids and bases. H + ions in the acid reacts with the alkaline OH- ions to form water and the ionic salt:
HA + H2O → BOH + BA
The reaction between hydrogen bromide (HBr) and sodium hydroxide are examples of acid-base reactions:
HBr + NaOH → NaBr + H2O
6) Reduction-Oxidation or Redox Reactions
In the redox reaction of oxidation numbers of atoms has changed. Redox reactions may involve the transfer of electrons between chemical compounds.
The reaction that occurs when Where I2 is reduced to I- and S2O32- (thiosulfate anion) is oxidized to S4O62- provide examples of redox reactions:
2 S2O32- (aq) + I2 (aq) → S4O62- (aq) + 2 I- (aq)
7) Combustion reaction
The combustion reaction is a type of redox reaction in which a combustible material joined with an oxidant to form oxidized products and generating heat (exothermic reaction). Usually the reaction of oxygen combustion joined with other compounds to form carbon dioxide and water. Examples of the combustion reaction is the burning of naphthalene:
C10H8 + 12 O2 → 10 CO2 + 4 H2O
8) isomerization reactions
In the isomerization reaction, setting the compound structural change but the atomic composition remains the same.
9) Hydrolysis reaction
Hydrolysis reactions involving water. The general form for the hydrolysis reaction is:
X- (aq) + H2O (l) <-> HX (aq) + OH- (aq)
Hi zelvy, can you explain about spessifically different from heterogeneous and homogeneous mixtures. give me example about that...? thanks.
BalasHapusWell, The different between that mixture is
HapusHomogeneous mixture:
1. Each section of the homogenous mixture is homogeneous (color, taste, and the comparison substances mixed together).
2. Example: A spoonful of sugar dissolved in a glass of water.
Heterogeneous mixture:
1. any part of a heterogeneous mix is not the same (not the same color, mixed substances and their concentration ratio).
2. Example: Sand dissolved in water.
Why the compound have limit of bonds? for example carbon has 4 bonds to another ion or atom?
BalasHapusChemical bonds are formed because elements tend to form stable electron structures such as those possessed by noble gas elements (class VIII A).
HapusSeen from the electron configuration, the noble gas elements have the full configuration of the octet configuration which means to have eight electrons in the outer shell except for the helium element which has a duplet configuration (two electrons in its outer shell).