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Endothermic and Exothermic Reactions

Endothermic and Exothermic Reactions. The Experiments’ Aim. You are about to discover the difference between different chemical reactions that play an important role in daily life processes and the industry.

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Endothermic and Exothermic Reactions

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  1. Endothermic and Exothermic Reactions

  2. The Experiments’ Aim • You are about to discover the difference between different chemical reactions that play an important role in daily life processes and the industry. • A number of different dissolution processes and chemical reactions will be conducted and the change in temperature – as a measure of the change in energy – will be used to distinguish between endothermic and exothermic processes. • It is important that you understand the scientific method before attempting the project. • You will have to do the following after completing the investigation: • Ask an investigative question • Formulate a hypothesis • Identify and control different variables • Design the investigation • Collect quantitative data accurately • Interpret the data • Verify results by conducting more than one experiment • Recognize, analyze and evaluate alternative explanations of observations and data and write an appropriate conclusion.

  3. Introduction to Enthalpy Enthalpy Changes in Enthalpy • Change in composition and change in energy are characteristic of all chemical reactions. • All chemical reactions adhere to two laws: • The Law of conservation of Mass • The Law of Conservation of Energy • Chemical reactions can be divided into two groups: • Reactions that absorb energy from the environment in the form of heat are called endothermic reactions. • Reactions that release energy into the environment in the form of heat are called exothermic reactions. • Enthalpy is the heat content of a substance at constant pressure and is represented by the symbol H. • The change in enthalpy or heat of the reaction, ∆H, is the net energy released or absorbed during a chemical reaction that takes place at constant pressure. • Enthalpy change is measured in kJ or kJ∙mol-1.

  4. Energy in bonds • To understand why some reactions are endothermic, while others are exothermic, we have to take a look at bond energies. • The strength of the intramolecular forces determine the size of the bond energy. • When chemicals are mixed to react, existing bonds have to be broken and energy is absorbed – endothermic process. • The reactant atoms are unstable and will rearrange • New bonds are formed, while energy is released – exothermic process.

  5. Endo and Exo thermic changes • If more energy is absorbed to break existing bonds than what is released to form new bonds, the process is endothermic. • If less energy is needed to break existing bonds than what is released to when new bonds are formed, the process is exothermic.

  6. Calculating bond energies and ∆H Example worked Table 1: Table of bond energies • . • Natural gas (methane) produces CO2(g), H2O(g) and energy when it burns in O2(g) • CH4(g) + 2O2(g) ⟶ CO2(g) + 2H2O(g) • Bonds that must be broken: • 4(C – H) ⇒ 4(413) • 2(O = O) ⇒ 2(498) • New bonds that must be formed: • 2(C = O) ⇒ 2(745) • 4(O – H) ⇒ 4(463) • ∆H = ∑▒〖𝑒𝑛𝑒𝑟𝑔𝑦 𝑎𝑏𝑠𝑜𝑟𝑏𝑒𝑑 −〗 ∑▒〖𝑒𝑛𝑒𝑟𝑔𝑦 𝑟𝑒𝑙𝑒𝑎𝑠𝑒𝑑〗 • ∆H = [4(413) + 2(498)] – [2(745) + 4(463)] • ∆H = 2648 – 3342 • ∆H = -694 kJ∙mol-1 • The reaction is exothermic. Use the table of bond energies given below to determine if the combustion of natural gas is endothermic or exothermic.

  7. Potential energy profiles Introduction Graph 1: Graph of endothermic reaction • The activation energy is the minimum energy required to start a reaction. • Chemical reactions may be regarded as the result of collisions between atoms, molecules or ions. • A chemical reaction only takes place when the total energy of the colliding particles is greater than the activation energy required for the reaction. • Most collisions do not have sufficient kinetic energy that can be converted to potential energy and do not lead to a reaction. • When particles have enough energy, existing bonds between the particles can be broken. • The particles are now in an unstable, high energy state and are on the brink of rearranging to form new compounds. • This temporary, unstable high energy state is called the activated complex. • When new bonds are formed, potential energy is released and can be used to ensure that the reaction continues. • A catalyst can be added to the reactants to speed up the reaction without taking part in the reaction. • A catalyst cannot start a reaction. • It lowers the activation energy, but has no effect on the energy of the reactants or products. • The enthalpy change (∆H) is not affected by the presence of a catalyst. • Eproducts > Ereactants • ∆H is positive

  8. Potential energy profiles Graph 2: Graph of Exothermic reactions Graph 3: Graph of exothermic reaction with catalyst • Eproducts> Ereactants • ∆H is positive • A positive catalyst has the same effect on an exothermic reaction. Eproducts < Ereactants ∆H is negative

  9. Energy changes in daily life General Chemistry Concepts behind the Use of Cold Packs: • . • Energy changes are either occurring naturally (combustion/burning, photosynthesis, respiration, boiling, freezing, etc.) or being employed by mankind to make our lives better through its numerous application. • One of the most common application is the use of Cold Packs in our daily lives. • When you have a headache, applying a cold pack relieve the pain. • Most of the commercially available cold packs contain chemicals which absorb heat when they react. • This is why cold packs causes a cooling effect on their person’s head and temporarily relieve the pain. • What really happens is that when the cold pack is used, the chemicals inside the pack are made to react with each other. • The reaction taking place in the system, is highly endothermic in nature – heat energy is taken into the system from the environment - in this case the environment is the person’s head. • The cold pack can simply be made up of 2 bags – a small inner bag and an outer bag. • The small inner bag can be just water and the out bag can be ionic salts such as ammonium chloride or potassium nitrate. • When the pack is squeezed, the small inner bag breaks and the ionic salt dissolves in water. • This causes a reaction which is endothermic in nature.

  10. The project • You have to conduct a practical investigation that will allow you to: • Classify different dissolution processes and reactions as exothermic and endothermic. • Do research about one exothermic and one endothermic reaction and discuss its application in daily life or industry.

  11. Part 1 The Breakdown Diagram 1: Salts that will be tested • Dissolution processes: • When ionic salts dissolve in water, the process is known as dissociation. • Some of the dissociation reactions are exothermic and others are endothermic. • By measuring the change in temperature during the dissolution process, you can identify the process as exothermic or endothermic. • An increase in temperature is characteristic of exothermic process. • A decrease in temperature is characteristic of endothermic process. • When polar covalent substances dissolve in water, the process is called ionisation. • You are going to dissolve H2SO4(ℓ) in water. • Remember to add the acid carefully, drop by drop to the water!

  12. Part 2 The Breakdown Diagram 2: Expected reaction • Identify and explain applications of exothermic and endothermic reactions in everyday life and industry. • Write a report on the research that you have done about the applications. • Remember to include a bibliography. • No plagiarism will be allowed! Some of the experiments are vigorous! Make sure that you wear safety clothing and that the Educator is present at all times!

  13. Keywords

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