Using English to Predict Rendement of Product a Reaction

RENDEMEN

1.                  Rendemen chemical

In chemistry, the chemical yield, the yield of the reaction, or only the rendement refers to the amount of reaction product produced in the chemical reaction. Absolute rendement can be written as weight in grams or in moles (molar yield). The relative yield used as a calculation of the effectiveness of the procedure is calculated by dividing the amount of product obtained in moles by the theoretical yield in moles:

Fractional yield =       true rendement                                             theoretical rendement

To obtain a percentage yield, multiply the fractional yield by 100%. One or more reactants in chemical reactions are often used redundantly. The theoretical rendement is calculated based on the number of moles of the limiting reaction. For this calculation, it is usually assumed there is only one reaction involved.

The ideal chemical yield value (theoretical rendement) is 100%, a value highly unlikely to be achieved in its practice. Calculate the percentage of rendement that is by using the following equation percent rendemen = weight yield / weight of yield divided by the sample weight multiplied 100%.

2.                  Various kinds of chemical reactions

By knowing some properties or types of reactions, we can understand the chemical reactions more easily. Generally, chemical reactions are classified by type as follows:

1. Reaction of merging

2. Decomposition reaction

3. Reaction of change (single exchange reaction)

4. Metathesis reaction (multiple exchange reaction)

1)                  Reaction of merging

The merging reaction is a reaction in which two substances merge to form a third substance. The simplest case is when two elements react to form a compound. For example sodium metal reacts with chlorine gas to form sodium chloride. The equation of the reaction:

2Na (s) + Cl₂ (g) → 2NaCl (s)

Other examples are the reaction between white phosphor and chlorine gas. In limited chlorine amounts, phosphorus reacts to form phosphorus trichloride, PCl₃, a colorless liquid.

P₄ (s) + 6Cl₂ (g) → 4PCl₃ (l)

If the chlorine is excessively available, the resulting phosphorus compound is phosphorus pentachloride, PCl5, a white solid.

P₄ (s) + 10Cl₂ (g) → 4PCl₅ (s)

Other merging reactions involve the compound as reagents. For example: phosphorus trichloride reacts with chlorine gas to form phosphorus pentachloride. The equation of the reaction:

PCl₃ (l) + Cl₂ (g) → PCl₅ (s)

2)                  Decomposition Reactions

The decomposition reaction is a reaction when a single compound reacts to form two or more substances. Usually this reaction requires a rise in temperature for the decomposable compound by increasing the temperature eg KClO3. This compound when heated will decompose into KCl and oxygen gas. The equation of the reaction:

KClO₃ (s) → 2KCl (s) + 3O₂ (g)

Decomposition of potassium chlorate is commonly used to generate laboratory oxygen gas. The decomposition reaction is commonly applied in limestone processing in the area of ​​West Java cipatat. Limestone, CaCO₃ extracts that can be used as building materials need to be further processed into tohor, CaO. The processing of limestone is done by way of roasting limestone in the stove. The chemical equations are:

CaCO₃ (s) → CaO (s) + CO₂ (g)

In this reaction, a single compound is broken down into two different substances.

3)                  Exhcange Reactions

Reaction of a change or also called a single exchange reaction is the reaction in which an element reacts with a compound to replace the element contained in the compound. For example, if the copper metal plate is immersed in a silver nitrate solution, a silver metal crystalline is produced. The equation of the reaction is:

Cu (s) + 2AgNO₃ (aq) → 2Ag (s) + Cu(NO₃)₂ (aq)

Copper replaces the silver contained in silver nitrate, producing a solution of copper nitrate and silver metal.

If the logamseng plate is immersed in a blue sulfate copper solution, then on the surface of the zinc metal there will be a red copper deposit, and the blue color of the solution slowly fades. This shows that zinc reacts with copper sulfate to produce copper metal and a colorless zinc sulfate solution.

4)                  Metathesis reaction

The reaction of metathesis or multiple exchange reactions is a reaction involving the exchange of parts of the reactants. If the reagents are ionic compounds in solution form, the exchange portion is the cation and anion of the compound. For example a colorless potassium iodide solution is mixed with lead (II) nitrate solution which is also colorless. The ions in the solution react to form a yellow precipitate of the lead (II) iodide compound. The equation of the reaction:

2KI (aq) + Pb (NO₃)₂ (aq) → 2KNO₃ (aq) + PbI₂ (s)

Iodide ions in the potassium iodide solution exchange with nitrate ions from lead (II) nitrate solution, yield a colorless potassium nitrate solution and a yellow i (y) iodide lead solid, as PbI₂.

The acid and base reaction that produces salt, is also considered a metathesis reaction. For example the reaction between hydrochloric acid, HCl (aq) and sodium hydroxide (aq), the equation of the reaction:

HCl (aq) + NaOH (aq) → NaCl (aq) + H₂O (l)

The acid-base reaction is also called the neutralization reaction, because it occurs the inclusion of the H + charge by the electrically neutral (H2O) water-formed OH. The salt of NaCl formed remains in solution as its ions.

5)                   Burning reaction

The reactions we consider so far can be characterized as reactor reactions of atoms. However, we need to add another kind of reaction that is the combustion reaction, which is characterized by the fact that one of its reactants is oxygen. The combustion reaction is the reaction of a substance with oxygen, usually reacting rapidly with the release of heat forming a flame.

If carbon compounds are burned in oxygen or air will form carbon dioxide and water vapor when the combustion is complete. However, if incomplete combustion (lack of oxygen) will form carbon monoxide gas, or may be formed carbon black (soot). Some examples of combustion of carbon compounds :

CH₄ (g) + 2O₂ (g) → CO₂ (g) + 2H₂O (g)

2CH₃OH (l) + 3O₂ (g) → 2CO₂ (g) + 4H₂O (g)

C₄H₁₀ (g) + 13O₂ (g) → 8CO₂ (g) + 10H₂O (g)

Ironing, although not commonly considered as combustion, is essentially a combustion reaction, because there is a reaction between iron and oxygen accompanied by the release of energy. The iron-cellification reactions are in fact very complex involving water molecules, but we can write the karate in the form of a net reaction, which is as follows:

4Fe (s) + 3O₂ (g) + nH₂O (l) → 2Fe₂O₃.nH₂O (s)

3.                  Limiting Reactions

In a chemical reaction, the mole ratio of the added reagents is not always the same as the ratio of the reaction coefficient. This causes a reagent to be reacted first. This is called pereaksi pembatas. Limiting reagent is a reactant contained in the relatively smallest amount (in the stoichiometric relationship). The limiting reagents will run out, while the other reactions will leave the rest.

4.                  Determining the Limiting Reagent

Example:

One mole of sodium hydroxide solution (NaOH) is reacted with 1 mole of sulfuric acid (H₂SO₄) solution according to the reaction

2 NaOH (aq) + H₂SO₄ (aq) -> Na₂SO₄ (aq) + 2 H2O (l)

Resolution:

Mol each substance is divided coefficient, then select the small divide as a limiting reagent

-           mole NaOH / NaOH coefficient

= 1/2 mol

= 0.5 mol

-                      Mole  H₂SO4 / H₂SO4 coefficient

= 1/1 mol

= 1 mol

Since the yield is NaOH < H₂SO4, the NaOH is the limiting reagent, so NaOH will be reacted first.

2 NaOH (aq) + H₂SO4  > Na₂SO₄ (aq) + 2 H₂O (l)

First: 1 mol 1 mol 0 0

Reacts: (2x0.5) = 1 mol (1x0.5) = 0.5 mol

Residual: 1-1 = 0 moles 1-0,5 = 0.5 mole 0.5 mole 1 mole

The remaining reagent is H₂SO₄

Source :

Sunarya,Y.(2003). Kimia Dasar 2. Alkemi Grafisindo Press

https://id.wikipedia.org/wiki/Reaksi_pembatas

http://kimiadasar.com/macam-macam-reaksi-kimia/

https://id.wikipedia.org/wiki/Rendemen_kimia