Exothermic and Endothermic Reactions

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Energy in hemical Reactions hemical Reactions Exothermic and Endothermic Reactions 1 hemical reactions occur all around us. They happen every second of every day. hemical reactions are more than just things done in a science laboratory. igesting food is a series of chemical reactions. Wood burning on a campfire is a chemical reaction. The process of photosynthesis in plants is also a series of chemical reactions. ll of these reactions take starting chemicals and then produce new chemicals. Some chemical reactions release energy. Others store energy. 2 How can we understand why chemical reactions release or store energy? First we must understand how chemical reactions work. ll chemicals are made of atoms. We can also think of chemicals as molecules. Some molecules have only two atoms. Others may have thousands. ll of the atoms of molecules are held together by chemical bonds. ertain bonds are easy to break. Other bonds are hard to break. How do we know this? hemists have done many tests to find how much energy it takes to break specific bonds. This energy is called bond energy. It is different for every chemical bond. For example, let s look at three types of atoms: carbon, hydrogen, and oxygen. certain amount of energy is needed to break the chemical bond between a carbon and a hydrogen atom. It takes a different amount of energy to break the bond between a carbon and an oxygen atom. Every chemical bond has its own unique bond energy. 3 It takes energy to break bonds. However, energy is released as chemical bonds are formed. The starting chemicals in a reaction are called the reactants. The final products of a chemical reaction are called products. On the reactant side of the chemical equation, bonds are broken. On the product side of the reaction, bonds are formed. Energy is needed to break the bonds of the reactants. Energy is released as the new bonds are formed in the products. The number and types of bonds within a molecule determine how much energy is available within that molecule. So how does this relate to chemical reactions releasing or storing energy? 1

Energy in hemical Reactions hemical Reactions 4 We can calculate the bond energies of any chemicals in a reaction. In all chemical reactions, energy is required to start the reaction. Energy is also released during the reaction. How much energy depends on the molecules involved in the chemical reaction. Remember that each molecule has its own bond energy. This energy is based on the types of atoms in that molecule. In the same way, each chemical reaction will have its own energy balance. The energy input and output is based on the types of molecules involved. First you can add the total bond energies of the reactants. Then compare this to the total bond energies of the products. This lets you determine whether the chemical reaction releases or stores energy. 5 chemical reaction that releases energy is called an exothermic reaction. chemical reaction that stores energy is called an endothermic reaction. More energy might be released as products form than the energy needed to break the reactants apart. This chemical reaction will release energy. In other words, it will be an exothermic reaction. Less energy might be released as the products form than the energy needed to break the reactants apart. This chemical reaction stores energy. In other words, it will be an endothermic reaction. This may sound very confusing. Let us look at these two types of reactions in more detail. 6 Let us start with an exothermic reaction. More energy is released during the chemical reaction than is needed to start the chemical reaction. It takes less energy to break the reactant bonds than the energy released as the products form. uring exothermic reactions, energy is released as a product to the surroundings. This energy is often in the form of heat. On the other hand, in an endothermic reaction, the opposite is true. Less energy is released during the chemical reaction than is required to start the reaction. It takes more energy to break the reactant bonds than the energy released as the products form. Energy is absorbed from the surroundings during endothermic reactions. This energy is often stored for later use. 7 Let us look at some examples of endothermic and exothermic reactions. Plants absorb sunlight, which is actually energy from the sun. This energy is used in the chemical reactions that happen during photosynthesis. In other words, the energy from the sun can be considered a reactant. Sunlight is used to create the products of photosynthesis. Thus photosynthesis is an endothermic reaction. The main product of photosynthesis is glucose (sugar). Glucose can be used for food. It can also be used to make many of the other molecules in plants. The energy absorbed from the sun is stored in these products of photosynthesis for later use. The energy stored in these products may then be released during exothermic reactions. ommon examples include the burning of wood and fossil fuels. nother example is the use of glucose in cells during cellular respiration. These types of reactions are also known as combustion reactions. In exothermic combustion reactions, you can look at the energy released as a product. The energy is often in the form of heat or light. 2

Energy in hemical Reactions hemical Reactions 1 Which of the following statements regarding bond energies is FLSE? ll chemical bonds are hard to break. Some chemical bonds are easier to break than others. ond energy is the amount of energy it takes to break a chemical bond. Every chemical bond has its own unique bond energy. 2 What specifically determines how much energy is available in a molecule? How many atoms are in the molecule. Whether the molecule is a reactant or a product. The number and types of bonds within the molecule. Whether the molecule is hard or soft. 3

Energy in hemical Reactions hemical Reactions 3 How do scientists determine whether a chemical reaction releases or stores energy? Scientists can calculate the bond energies of the reactants and the products. Scientists compare the total bond energies of the reactants and the products. Scientists know that each chemical has its own unique bond energy. ll of the above. 4 What type of chemical reaction occurs when more energy is released during the chemical reaction than is needed to start the chemical reaction? bond energy reaction. n exothermic reaction. n endothermic reaction. simple chemical reaction. 4

Energy in hemical Reactions hemical Reactions 5 What type of chemical reaction occurs when less energy is released during the chemical reaction than is needed to start the chemical reaction? bond energy reaction. n exothermic reaction. n endothermic reaction. simple chemical reaction. 6 Some chemical reactions release energy. Others store energy. What important chemical reaction stores energy? The burning of fossil fuels ombustion reactions Photosynthesis igestion 5

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