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Water in Chemical Reactions

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Water in Chemical Reactions

In this article, we will go over different ways in which water is involved in chemical contexts. Most importantly we will go over the meaning and definition of water in chemical reactions with its role in chemical contexts. We will see how the structure of water gives specific properties, specifically regarding the way water is a dipole. You will learn how water can be involved in different types of reactions by dissolving or hydrogen bonding with compounds.

  • We will cover the meaning of water in chemical reactions.
  • We shall see how water can act in reactions based on hydrogen bonding and acid-base mechanisms.
  • We'll cover the structure of water and how it helps to give water its properties.
  • We'll also look at examples and formulae of water in chemical contexts, as well as how it reacts with chlorine.

Meaning of Water in Chemical Reactions

In chemical reactions, water can act in many ways. Some of these include as a hydrogen bond donor or acceptor, as well as a proton (H+) donor or acceptor, which allows water to facilitate reactions in many ways.

Most importantly, water acts as a solvent in many chemical reactions. In many chemical contexts, the chemical reaction does not take place without water. Here, water allows these reactions to proceed.

Role of Water in Chemical Reactions

Here we will examine how water is able to facilitate multiple types of chemical reactions.

Most importantly, due to its solvent abilities, it allows the free movement of ions and compounds, which is what allows for many reactions to take place. Because the ions or compounds can move around freely in a dissolved state (such as when dissolved in water), it is easier for chemical reactions to occur, which further demonstrates water's ability to facilitate chemical reactions.

But what is water? And how can it help chemical reactions?

How does water act in chemical contexts?

So what is water? The chemical formula of pure water is: H2O. This means it is a molecule made up of two hydrogen atoms, covalently bonded to an oxygen atom. This works in the context of atomic bonding due to the need of oxygen to gain two additional electrons (oxidation state of oxygen being -2) which it gains from two hydrogens, where each one shares its one electron (as the oxidation state of hydrogen is +1).

Water in Chemical Reactions Diagram of a water molecule StudySmarterThe bent molecular geometry of a water molecule. Sciencephotolibrary

Looking at the molecular geometry of water, we can see it is bent. You can see this in the diagram on the side, but why might that be?

Taking a closer look at the central atom, in this case oxygen, we can use the VSEPR theory to determine the shape of the molecule. As oxygen has four electron domains (two bonded pairs and two lone pairs) they will arrange themselves in a tetrahedral geometry. Due to there only being two bonds, only these will be prominent and shown.

This shape is what gives water many of its interesting properties.

What do you think the angle between the bonds in a water molecule is? It is actually 104.45°, which is smaller than what's expected for a molecule with a tetrahedral geometry (109.5°). But do you know why?

The reasoning behind this is because not all electron domains repel each other by the same amount. Lone pairs of electrons tend to repel more than bonded pairs of electrons. In the water molecule, there are two lone pairs of electrons on the oxygen atom, which repel the bonded hydrogens away from them. This causes the bonded hydrogens to be forced to be closer to each other, making the angle between them smaller than what's expected.

Due to the fact that water is a bent molecule and since there are differences in electronegativity between O and H, the water molecule is actually a dipole.

Dipole: a molecule that has a positive and negatively charged end.

As oxygen is more electronegative than hydrogen, the shared electrons in the bonded pairs, even though they are shared, will be more tightly pulled by the oxygen atom. This creates a partial negative charge on the oxygen atom and subsequently a partial positive charge on the hydrogen atoms in the given molecule. Putting this together, we can see how the water molecule becomes a dipole - here by having one negative end (the oxygen atom) and a positive end (the hydrogen atoms).

This also allows for water to form hydrogen bonds with each other. As you can see on the diagram, the water molecules interact with each other through these partial charges, which give water all its physical and chemical properties.

Remember: hydrogen bonding only occurs when a hydrogen atom is bonded to either oxygen (O), nitrogen (N), or fluorine (F). Other atoms do not exhibit hydrogen bonding.

Water in Chemical Reactions Diagram showing molecular shape and angle of water molecules and hydrogen bonding between them  StudySmarterA diagram showing the molecular shape and angle of a water molecules with partial poles in A, and the hydrogen bonding of water in B. Source: Researchgate.net

But why is it important for water to be a dipole? Since water is a dipole, i.e, a polar molecule, it is able to allow many chemical reactions to take place. But how?

Formula of Water in Chemical Reactions

Next, we shall cover how water acts in three different ways in chemical reactions. This includes dissolving ionic compounds, forming hydrogen bonds with other compounds, and also acting in acid/base reactions.

1. Dissolution of ionic compounds

Firstly, water is a great solvent due to being a molecule with a dipole. This means that water can easily dissolve any ionic compound, such as any salt. It splits apart the ionic bond to leave two ions - a positive and a negative one. Because water is a dipole, it can shield and protect the ions in both ways. It surrounds the cation (the positive ion) with the negatively charged oxygen atoms, and the anion (the negatively charged ion) with the hydrogens. This allows for appropriate stability of the ionic compound in water. As seen below, this is what occurs.

Ionic Salt(s) + H2O => Cation+(aq) + Anion-(aq) + H2O

2. Hydrogen bonding with compounds

As water is a polar molecule, it is also able to dissolve any polar substance. In a similar way to the previous example of ionic compounds, the water molecules arrange themselves in such as way as to protect specific parts needed of a polar molecule. This might not cause the splitting of bonds such as in the example with ionic salts, but rather might rely on both its polar properties and also its hydrogen bonding properties.

Water can interact with substances that are able to form hydrogen bonds to dissolve them, thus making them more mobile in water and allowing reactions to take place. It can act both as a hydrogen bond acceptor and donor. Here, the compound in question will stay the same and be unchanged, yet its dissolution will provide greater means for chemical reactions to take place.

Compound(solid) + H2O => Compound(dissolved) + H2O

3. Proton donor/acceptor role

The last key property of water is its ability to be a proton donor or acceptor. This relies on water's intrinsic ability to add or split a hydrogen from itself. The following reactions show this ability:

H2O => H+ + OH-

H2O + H+ => H3O+

When this occurs, either a hydroxide ion (OH-) is formed, or a hydronium ion (H3O+) is formed. Here the positive hydrogen ion (H+) is referred to as a proton, as it is merely just an atom with one proton and no neutrons or electrons.

Due to this property of water, it can help many reactions to take place. Most importantly acid-base reactions, but it is not limited to that. This property of water is also employed in many organic synthesis reactions and even catalysis of certain reactions.

Examples of Water in Chemical Reactions

First off, the most basic of reactions could be considered the dissolution of solid salts through water. Here is the example of common table salt (NaCl) dissolved, which creates aqueous ions.

NaCl(s) + H2O => Na+(aq) + Cl-(aq) + H2O

In a similar way, water can also be used to dissolve other covalently bonded molecules, usually larger than salts. Here, the compound does not split apart in water, yet it is still dissolved. An example of this would be glucose. This sugar will form hydrogen bonds with the water molecules and be able to be dissolved by the surrounding water. Note how in the example below, the composition of the compound (glucose in this example) does not change from solid to its aqueous form.

C6H12O6(s) + H2O => C6H12O6(aq) + H2O

Another common reaction that water is involved in is acid and base mediated reactions. As we've seen before, the ability of water to split and create hydroxide or hydronium ions is the reaction that can be used by acid or base reactions. Below, is an example of how hydrochloric acid is able to form a strong acid in water:

HCl(aq) + H2O => H3O+ + Cl-(aq)

Adding furtherto this, the ability of water to accept or donate protons is a key mechanism in organic reactions. Here below is an example of how water is used in organic reactions. In this case, it is an addition of water to alkenes, through an acid-catalysed mechanism. You don't have to know this reaction, but if you are interested take a look at the role of water in the context of this chemical reaction. In this case, water is able to directly help out chemical reactions, specifically organic ones.

Water in Chemical Reactions Diagram showing the mechanism for the addition of water to alkanes StudySmarterAn acid based catalysed mechanism for the addition of water to alkanes, where water can act as a proton donor in the reaction. Source: masterorganicchemistry.com

Chemical Reaction of Chlorine in Water

What happens when chlorine is added to water? If you perform a simple litmus test you will notice that the pH decreases. Take a look at the equation below which justifies this behaviour.

Cl2 + H2O ⇒ HOCl + HCl

This reaction is sometimes called hydrolysis. Its products are HCl, which is a strong acid, hence the decrease of pH upon addition of chlorine. Another product is oxygen gas, so if you perform this experiment you will notice bubbles of this gas forming.

Water in Chemical Reactions - Key takeaways

  • Water mediates and facilitates chemical reactions
  • It does so by being a polar molecule (has a dipole).
  • Water can be involved in dissolving ionic and covalent compounds.
  • It can be an acceptor or donor of hydrogen bonds, as well as protons.
  • Water can even be used in mechanisms of catalysis and hydrolysis (when chlorine is reacted with water).

Frequently Asked Questions about Water in Chemical Reactions

Water is not a chemical reaction, yet rather it facilitates other chemical reactions through dissolving compounds. 

Water, H2O usually stays unchanged in a chemical reaction, where it dissolves salts and other compounds. 

Some examples include dissolving ionic salts or complex molecules such as sugar. 

In an acid or base reaction, water usually either donates or accepts protons, based on the chemical context. 

The formula of water is H2O and it stays unchanged in chemical reactions even though there might be different intermediates. 

Final Water in Chemical Reactions Quiz

Question

What is the molecular composition of water? (one word answer)

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Answer

H2O

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Question

What is the molecular geometry of a water molecule?

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Answer

Bent

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Question

Water is a polar molecule.

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Answer

True

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Question

Why is water a polar molecule?

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Answer

Partial charges (due to electronegativity) create a dipole. 

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Question

Which of the following can water dissolve? 

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Answer

NaCl

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Question

Why can water dissolve sugars?

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Answer

Creates hydrogen bonds with molecules of substance. 

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Question

Which atoms can contribute to hydrogen bonding?

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Answer

nitrogen, oxygen, and fluorine, and of course hydrogen

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Question

When a hydroxide ion is mentioned, which context is it based in?

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Answer

Acid

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Question

What type of ion is created when a proton is added to a water molecule?

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Answer

Hydronium ion

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Question

How does a hydronium ion form?

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Answer

Upon the addition of acid into water. 

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Question

Why is water such a good solvent?

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Answer

It is polar and can form hydrogen bonds with compounds. 

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Question

Can water dissolve a non polar substance? 

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Answer

No, as the two molecules involved would have no way of interacting and would repel each other. 

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Question

Which of the following can't be dissolved in water?

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Answer

Salt

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Question

Does water form hydrogen bonds with itself? 

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Answer

Yes, which contributes to all of water's physical properties as a liquid. 

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Question

What happens to the pH of the solution when chlorine is added to water?

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Answer

The pH decreases

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