GIVE CHEMICAL EVIDENCE

Evidence of a Chemical
Reaction

1.Evidences of Chemical Reactions
Some chemical changes are easy to observe. The products formed by the rearrangement of atoms look different than the reactants. Other changes are not easy to see but can be detected in other ways.
Chemical reaction, a process in which one or more substances, the reactants, are converted to one or more different substances, the products. Substances are either chemical elements or compounds. A chemical reaction rearranges the constituent atoms of the reactants to create different substances as products.

A. Color Change Substances often change color during a chemical reaction  For example, when gray iron rusts, the product that forms is brown, as shown in      the  photograph below.

B. Formation of a Precipitate  Many chemical reactions form products that exist in a  different physical state from the reactants. A solid product called a may form when chemicals in two liquids react, as shown in the photograph below. Seashells are often  formed this way when a sea creature releases a liquid that reacts with seawater. 

 

C. Formation of a Gas Chemical reactions may produce a gas, like that formed when antacid pills are mixed with stomach acid. The photograph below shows an example  in  which carbon dioxide gas is produced by a chemical reaction.

D. Temperature Change Most chemical reactions involve a temperature change.   Sometimes you can recognize the change when you see a flame. Notice the burning of the metal magnesium in the photograph. Other temperature changes are not  immediately   obvious. If you touch concrete before it hardens, you may notice that it feels warm. This warmth is due to a chemical reaction.

F. Light is given off : Potential energy in valance electrons is released in the form of light. 

 All chemical reactions, whether simple or complex, involve cengengesan in substances. One or more starting substances, the reactants, are changed into one or more new substances, the products.

 Reactants à Products

In a chemical reaction the ways in which atoms are joined together are changed. Bonds are broken and new bonds are formed as reactants are converted into products. The atoms are not created or destroyed. They are just rearranged.

Chemical reactions can be described in different ways. For example, we could say: "Iron reacts with oxygen to produce iron (III) oxide (rust)." Alternatively, we could identify the reactants and product in this reaction by writing a word equation.

Iron + oxygen à iron (III) oxide

In a word equation, the reactants are written on the left, and the products are written on the right. They are connected by an arrow ( à ) that is read as "yields" or "reacts to produce." Word equations communicate the reaction but can get cumbersome. To be more efficient chemists use chemical formulas for writing equations. For example the rusting of iron would be represented as follows:

Fe + O₂ à Fe₂O₃

Equations that show just the formulas of the reactants and products are called skeleton equations. A skeleton equation is a chemical equation that does not indicate the relative amounts of the reactants and products. The physical state of a substance in a reaction can be indicated in the equation by using the following symbols: (s) for solid, (l) for liquid, (g) for gas, and (aq) for a solution in water. These usually follow the substance in the equation and can also be written as subscripts. To write a skeleton equation, you must write the correct formulas of the reactants and products with the reactants on the left side of the yield sign and the products on the right.

Just writing the skeleton equation of reaction does not always correctly communicate what is happening in the reaction. To represent chemical reactions correctly, equations must be balanced so that they show the amount of reactants and products in the reaction. In every balanced equation each side of the equation has the same number of atoms of each element. This is necessary to be consistent with the law of conservation of mass. Remember, in a chemical reaction, atoms are not created nor destroyed; they are simply rearranged.  Many chemical equations can be balanced by trial and error, but a few guidelines will make it easier and quicker. 

We can only know with certainty what the products of a chemical reaction are by carrying out that reaction in the laboratory. The reactants must be allowed to react and the products of this chemical reaction must be identified. Carrying out each reaction in the lab is the ideal, but it is both time consuming and costly. It is possible, however, to predict the products of some chemical reactions. To achieve this, you must be able to recognize various types of reactions. Five general types of reactions are: composition, decomposition, single replacement, double replacement, and combustion. 

2. The Chemical Reactions 

A chemical reaction is a process that is usually characterized by a chemical change in which the starting materials (reactants) are different from the products. Chemical reactions tend to involve the motion of electrons, leading to the formation and breaking of chemical bonds. There are several different types of chemical reactions and more than one way of classifying them. Here are some common reaction types.

However, if you are asked to name the main 4, 5 or 6 types of chemical reactions, here is how they are categorized.

1.      Oxidation-Reduction or Redox Reaction

In a redox reaction,​ the oxidation numbers of atoms are changed. Redox reactions may involve the transfer of electrons between chemical species.

The reaction that occurs when In which I₂ is reduced to I^- and S₂O₃^2- (thiosulfate anion) is oxidized to S₄O₆^2- provides an example of a redox reaction:

2 S₂O₃²⁻(aq) + I₂(aq) → S₄O₆²⁻(aq) + 2 I⁻(aq)

2.      Direct Combination or Synthesis Reaction

In a synthesis reaction, two or more chemical species combine to form a more complex product.

A + B → AB

The combination of iron and sulfur to form iron (II) sulfide is an example of a synthesis reaction:

8 Fe + S₈ → 8 FeS

3.      Chemical Decomposition or Analysis Reaction

In a decomposition reaction, a compound is broken into smaller chemical species.

AB → A + B

The electrolysis of water into oxygen and hydrogen gas is an example of a decomposition reaction:

2 H₂O → 2 H₂ + O₂

4.      Single Displacement or Substitution Reaction

A substitution or single displacement reaction is characterized by one element being displaced from a compound by another element.

A + BC → AC + B

An example of a substitution reaction occurs when zinc combines with hydrochloric acid. The zinc replaces the hydrogen:

Zn + 2 HCl → ZnCl₂ + H₂

5.      Metathesis or Double Displacement Reaction

In a double displacement or metathesis reaction two compounds exchange bonds or ions in order to form different compounds.

AB + CD → AD + CB

An example of a double displacement reaction occurs between sodium chloride and silver nitrate to form sodium nitrate and silver chloride.

NaCl(aq) + AgNO₃(aq) → NaNO₃(aq) + AgCl(s)

6.      Acid-Base Reaction

An acid-base reaction is type of double displacement reaction that occurs between an acid and a base. The H⁺ ion in the acid reacts with the OH^- ion in the base to form water and an ionic salt:

HA + BOH → H₂O + BA

The reaction between hydrobromic acid (HBr) and sodium hydroxide is an example of an acid-base reaction:

HBr + NaOH → NaBr + H₂O

7.      Combustion

A combustion reaction is a type of redox reaction in which a combustible material combines with an oxidizer to form oxidized products and generate heat (exothermic reaction). Usually, ​in a combustion reaction oxygen combines with another compound to form carbon dioxide and water. An example of a combustion reaction is the burning of naphthalene:

C₁₀H₈ + 12 O₂ → 10 CO₂ + 4 H₂O

8.  Isomerization

In an isomerization reaction, the structural arrangement of a compound is changed but its net atomic composition remains the same.

9.  Hydrolysis Reaction

A hydrolysis reaction involves water. The general form for a hydrolysis reaction is:

X^-(aq) + H₂O(l) ↔ HX(aq) + OH^-(aq)

3. The chemical Reaction in Dailly Life

 a. Photosynthesis Is a Reaction To Make Food 

Potential energy is the energy an object has due to its position relative to other objects. It is the amount of energy stored in something because of its relative position. To understand how the position of atoms is connected to energy, consider the reaction between the elements hydrogen and oxygen to form water. The process of forming water releases a large amount of heat.

Plants apply a chemical reaction called photosynthesis to convert carbon dioxide and water into food (glucose) and oxygen. It's one of the most common everyday chemical reactions and also one of the most important since this is how plants produce food for themselves and animals and convert carbon dioxide into oxygen.

6 CO₂ + 6 H₂O + light → C₆H₁₂O₆ + 6 O₂

 b. Rust Is a Common Chemical Reaction 

 Over time, iron develops a red, flaky coating called rust. This is an example of an oxidation reaction. Other everyday examples include formation of verdigris on copper and tarnishing of silver. Here is the chemical equation for the rusting of iron:

Fe + O₂ + H₂O → Fe₂O₃. XH₂O

 Source :
https://www.thoughtco.com/examples-of-chemical-reactions-in-everyday-life-604049
http://www.oocities.org/tdwarnick/rxnnotes.htm
http://www.classzone.com/vpg_ebooks/ml_sci_gr8/accessibility/ml_sci_gr8/page_274.pdf