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Chapter 6: Problem 7

What is meant by the term chemical energy?

Short Answer

Expert verified
Chemical energy is potential energy stored in chemical bonds, released or absorbed during chemical reactions.

Step by step solution

01

Understanding Chemical Energy

Chemical energy is a form of potential energy stored within chemical bonds of substances. It is released or absorbed during chemical reactions when bonds between atoms are formed or broken.

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Understanding Potential Energy
Potential energy is the stored energy in an object or system due to its position or arrangement. It is a type of energy that has the potential to do work. When we discuss chemical energy, we are talking about a form of potential energy that's specifically stored within chemical substances.

It's like having a compressed spring or lifting a rock to a higher elevation. The energy isn't doing anything active right now, but it has the potential to do work - such as moving other objects or generating heat - when it's released. Chemical energy is similar; it's waiting within the bonds of molecules and can be released during a chemical reaction to do work, like powering a car or cooking food on a stove.
The Role of Chemical Bonds
Chemical bonds are the glue that holds atoms together in molecules. Atoms bond by either sharing or transferring electrons, forming molecules with lower potential energy than the separate atoms. This bonding process is like two people holding hands to form a connection, producing a stable arrangement.

The type and strength of chemical bonds greatly influence the amount of chemical energy stored in a substance. For example, the energy stored in the bonds of glucose molecules is what's eventually used by our cells for daily activities. Conversely, when chemical bonds break, energy is released, which can be harnessed for various purposes. The strength and nature of these bonds determine how much energy is stored or released when these bonds form or break.
Chemical Reactions and Energy Transfers
Chemical reactions are processes where reactants transform into products through the making or breaking of chemical bonds. Every chemical reaction involves a change in energy.

Some reactions, called exothermic reactions, release energy, usually in the form of heat or light. Combustion is a classic example; when gasoline burns, energy is released as heat and light. On the other hand, endothermic reactions absorb energy from the surroundings, like photosynthesis in plants where light energy is absorbed to create glucose from carbon dioxide and water.

Understanding these processes is key to grasping how energy is transferred and transformed in the world around us. So, whether it's the explosion of fireworks or a plant growing, chemical reactions and the transfer of chemical energy are at the heart of these fascinating events.

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Most popular questions from this chapter

Why are fractional coefficients permitted in a balanced thermochemical equation? If a formula in a thermochemical equation has a coefficient of \(\frac{1}{2}\), what does it signify?

If the mass of a truck is doubled - for example, when it is loaded - by what factor does the kinetic energy of the truck increase? By what factor does the kinetic energy change if the mass is one-tenth of the original mass?

When gasoline burns, it reacts with oxygen in the air and forms hot gases consisting of carbon dioxide and water vapor. How does the potential energy of the gasoline and oxygen compare with the potential energy of the carbon dioxide and water vapor?

If a system has \(48 \mathrm{~J}\) of work done on it and absorbs \(22 \mathrm{~J}\) of heat, what is the value of \(\Delta E\) for this change?

Which of the following thermochemical equations can have \(\Delta H_{\mathrm{f}}^{\circ}\) for the heat of the reaction? If it cannot, then why not? (a) \(\mathrm{Na}_{2} \mathrm{SO}_{4}(s)+\mathrm{HCl}(g) \longrightarrow \mathrm{H}_{2} \mathrm{SO}_{4}(l)+2 \mathrm{NaCl}(s)\) (b) \(\mathrm{H}_{2}(g)+\mathrm{S}(s)+2 \mathrm{O}_{2}(g) \longrightarrow \mathrm{H}_{2} \mathrm{SO}_{4}(l)\) (c) \(2 \mathrm{H}+\mathrm{S}+4 \mathrm{O} \longrightarrow \mathrm{H}_{2} \mathrm{SO}_{4}(l)\) (d) \(\frac{1}{2} \mathrm{H}_{2}(g)+\frac{1}{2} \mathrm{~S}(s)+\mathrm{O}_{2}(g) \longrightarrow \frac{1}{2} \mathrm{H}_{2} \mathrm{SO}_{4}(l)\)
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