15.doc

Standard Grade Chemistry

Summary Notes

Topic 15. Carbohydrates

General

Learning Outcomes

 State that photosynthesis is the process by which plants make

carbohydrates from carbon dioxide and water, using light energy in the presence of chlorophyll, oxygen is released in the process.

 State that the role of chlorophyll in photosynthesis is to absorb light energy  State that the carbohydrates made in plants during photosynthesis are an

important food for animals.

 State that respiration is the process by which animals and plants obtain a supply of energy by breaking down carbohydrates using oxygen to give carbon dioxide and water.

 State that carbohydrates release energy, producing carbon dioxide and water when burned.

 Give examples of how energy can be used by animals

 Explain the importance of respiration and photosynthesis in maintaining the balance of carbon dioxide and oxygen in the air.

 Explain why the extensive clearing of forests could present dangers to life on Earth

 State that glucose is the carbohydrate which reacts with oxygen during respiration

 State that carbohydrates contain the elements carbon, hydrogen and oxygen.

 State that sugar is sweet and dissolves in water and that starch is not sweet and does not dissolve well in water

 Explain what is seen when a beam of light is passed through : - glucose solution

- starch in water

 State that glucose is a carbohydrate built up in photosynthesis

 State that starch is a polymer made in plants from glucose monomer units  Explain that the joining up of glucose molecules to form starch is an example

of polymerisation

 State that it is possible to distinguish starch from other carbohydrates using iodine solution.

 State that Benedicts or Fehlings reagent is used to test for glucose , but not for sucrose.

 State that during digestion starch molecules are broken down in the body into small glucose molecules which can pass through the gut wall.

 State that the breakdown of starch can be carried out in the laboratory using acid or amylase

 Give examples to show that the type of alcoholic drink varies with the plant source of the carbohydrate.

 State that an enzyme produced by yeast, a living organism, acts as a catalyst for the reaction.

 State that fermentation is the breakdown of glucose to form alcohol and carbon dioxide.

 State that distillation is a method of increasing the alcohol concentration of fermentation products.

 Explain why water and alcohol can be separated by distillation.

 State that alcohol is a member of the alkanol family and is called ethanol.

Credit

Learning Outcomes

 Explain why the production of carbon dioxide and water, on burning, indicates the presence of carbon and hydrogen in carbohydrates.

 Explain why glucose/fructose and maltose/sucrose are pairs of isomers  Write the molecular formulae for monosaccharides and disaccharides.  State that the glucose molecules join together with loss of water

 Explain that the joining up of glucose molecules to form starch is an example of condensation polymerisation

 State that Benedicts or Fehlings reagent is used to test for glucose , fructose, maltose and other sugars but not for sucrose.

 State that starch molecules break down by reacting with water molecules.  State what is meant by hydrolysis.

 Explain that the breakdown of starch and sucrose are examples of hydrolysis.

 Describe the effect of changes in pH and temperature on the optimum efficiency of an enzyme.

 Explain why there is a limit to the alcohol concentration of fermentation products.

Carbohydrates

General

The food we eat contains all the nutrients that our bodies need to stay alive. Food is a

complex mixture of nutrients. The study of nutrients that make up food is made easier by the fact that they can be classified into five types.

The five types of nutrient are :

 Carbohydrates

 Fat

 Proteins

 Vitamins

Different foods contain varying amounts of each nutrient. It is important to eat a variety of foods to ensure our body gets enough of each nutrient.

Carbohydrates are compounds of carbon, hydrogen and oxygen. The hydrogen and

oxygen are always in the same ratio as in water, i.e. 2 hydrogens for every oxygen.

Examples of carbohydrates include sugars such as glucose, sucrose, maltose and also the substance starch.

Carbohydrates are made by plants in a process called photosynthesis.

Photosynthesis takes place in the leaves of a plant and requires carbon dioxide, which comes from the air, and water which comes from the soil.

The photosynthesis reaction produces glucose, the simplest of all the carbohydrate molecules, and oxygen gas.

For the photosynthesis reaction to take place leaves have to contain chlorophyll. Chlorophyll, which makes plant leaves green, is the substance that absorbs energy

from sunlight to allow photosynthesis to take place.

The formula equation for photosynthesis is :

sunlight

CO2 + H2O  C6H12O6 + O2 chlorophyll glucose

In most plants, the glucose that forms in the leaves is immediately converted to starch. It is easy to test leaves to find out if they contain starch.

Before a leaf is tested for starch, the following have to be done : 1. The waterproof coating on the leaf has to be destroyed

2. The green colouring in the leaf, called chlorophyll, has to be removed

To destroy the waterproof coating

1. Half fill a 250cm3 _{beaker with water}

and heat until the water boils. 2. Switch off the Bunsen burner. 3. Put the leaf in the water and leave

there for one minute. To remove the chlorophyll

1. Collect a test tube of alcohol

2. Remove the leaf from the water using tongs and place it in the alcohol. 3. Place the test tube in the hot water

for five minutes. To test the leaf for starch

2. Return the alcohol.

3. Place 2 or 3 drops of iodine solution on the leaf and watch what happens.

Tests For Carbohydrates

General/Credit

Starch gives a dark blue/black colour when tested with iodine solution. This is a specific test for starch and can be used to distinguish it from all other carbohydrates.

Some carbohydrates, such as glucose or sucrose, contain relatively small molecules and fully dissolve in water to form true solutions. Starch is made up of much larger molecules and fully dissolve that do not completely dissolve in water. Instead the larger molecules form a suspension in the water called a colloid.

A light beam test can be used to distinguish a true solution from a colloid. When a beam of light is shone through some water containing starch, an intense beam of light is seen. This is due to reflection from the large molecules present. This does not happen with solutions of smaller molecule sugars such as glucose or sucrose.

Benedict’s test

Glucose, fructose, maltose and lactose, but not sucrose give a positive test with Benedict’s solution and heat. The positive test changes blue Benedict’s reagent to an orange-red precipitate.

Summary of tests for carbohydrates

Carbohydrate Solubility in

water

Light beam test Test with

iodine

Test with Benedict’s reagent + heat

glucose sweet solution no intense beam negative positive fructose sweet solution no intense beam negative positive maltose sweet solution no intense beam negative positive lactose sweet solution no intense beam negative positive sucrose sweet solution no intense beam negative negative

starch colloid intense beam positive negative

Types Of Carbohydrates

General/Credit

Glucose and fructose are two of the simplest type of carbohydrate molecules. They are building block molecules because they can join together to form many other carbohydrates. Glucose and fructose can be called monomers.

A term used to classify glucose and fructose is monosaccharide.

Monosaccharides have six carbon atoms in each molecule and the formula C6H12O6. Glucose and fructose have different structures, but because they both have the formula C6H12O6 they can be considered isomers.

forms. This type of reaction is called a condensation reaction. Disaccharides have the formula C12H22O11.

Sucrose is a disaccharide made when a molecule of glucose and a molecule of fructose join.

C6H12O6 + C6H12O6  C12H22O11 + H2O glucose fructose sucrose

(monosaccharides) (disaccharide)

Lactose and maltose are other examples of disaccharides.

Type of carbohydrate Molecular Formula Examples

monosaccharide C6H12O6 glucose, fructose

disaccharide C12H22O11 sucrose, maltose, lactose

Starch is another type of carbohydrate.

Energy From Carbohydrates

General/Credit

All living things need energy. You have seen that carbohydrates give out a lot of energy when they burn.

A reaction similar to burning takes place in animals and plants. This releases the energy in food by burning glucose (using oxygen), and produces carbon dioxide and water.

Credit The production of carbon dioxide and water also proves that

carbohydrates contain carbon and hydrogen – as these elements do not come from the air.

This reaction is much slower than burning and is called respiration.

The word equation for respiration would be as follows :

glucose + oxygen  carbon dioxide + water + energy

Respiration is a very important reaction for all living things because the energy produced can be used as :

heat – to provide warmth and maintain our body temperature at 37o_C

movement – in the muscles of animals, to keep the heart beating, running

The Carbon Cycle

General

Plants carry out photosynthesis in the daylight hours only. All living things, both plants and animals, require energy to live. The energy is provided by respiration.

In the daylight hours plants carry out both respiration and photosynthesis, but photosynthesis takes place much faster.

A study of the word equations for these reactions shows that they are chemically the exact opposite of each other.

Photosynthesis

carbon dioxide + water + energy  glucose + oxygen

Respiration

glucose + oxygen  carbon dioxide + water + energy.

Photosynthesis and respiration are two important processes in the Carbon cycle. The carbon cycle shows how carbon, in carbon dioxide and other carbon compounds, is recycled through various processes that occur in nature, and out everyday lives.

The Carbon cycle is a very important cycle to man as levels of carbon dioxide and

oxygen in the air are maintained by the reactions involved in the cycle – photosynthesis and respiration.

Apart from this increase in the amount of carbon dioxide entering the atmosphere there is major destruction of tropical rainforests. As a result, scientists have discovered that the amount of carbon dioxide in the atmosphere is increasing. This increase is though to be contributing to the Greenhouse effect.

Starch

General /Credit

Glucose, made by plants in the photosynthesis reaction, is converted to starch. Starch is made up of very large molecules.

Starch is in fact a polymer molecule made up of many glucose ,molecules joined together. Starch is an example of a polysaccharide because it is formed by the joining together of many monosaccharide units. The common way to write the formula of a polysaccharide is (C6H10O5)n where n is a very large number ( about 300 for starch).

We can be more descriptive about the type of polymerisation. When glucose molecules join together water is also formed. This type of polymerisation is called condensation polymerisation.

Digestion

General/Credit

Digestion of starch in food begins in the mouth where the starch meets saliva. Saliva contains many chemicals but the one responsible for the digestion of starch is called

amylase. Amylase is an enzyme. Enzymes are molecules, produced by living things, which

catalyse reactions.

After your food is swallowed, digestion continues in the stomach. In the stomach the food meets hydrochloric acid.

We can carry out digestion of starch in the laboratory using amylase and using hydrochloric acid.

Experiments show that digestion breaks down large carbohydrate molecules, like starch, into monosaccharides, like glucose.

Digestion of starch and sucrose (poly and disaccharides) is really the reverse of

building them up from monosaccharides. Breaking down poly and disaccharides will mean that the water molecules which formed as the monosaccharides joined will have to be

replaced.

The breakdown of a large molecule by addition of the elements of water is called

hydrolysis.

Hydrolysis of a disaccharide requires one water molecule.

C12H22O11 + H2O  C6H12O6 + C6H12O6

Hydrolysis of a disaccharide requires one water molecule.

(C6H10O5)n + n H2O  nC6H12O6

polysaccharide water monosaccharides

Alcohol

General/Credit

Alcoholic drinks can be made from any fruit or vegetable that is a source of starch or sugars. The type of alcoholic drink varies with the type of fruit or vegetable used.

Drink Fruit/ Vegetable

beer hops

cider apples

vodka potatoes

whisky barley

wine grapes

The process used to convert glucose into alcohol has been used for thousands of years and is called fermentation. Fermentation is the breakdown of glucose to form alcohol and carbon dioxide. The glucose for the fermentation comes from the breakdown of the starch or sugars in the fruit or vegetable material.

An essential component of the fermentation process is yeast. Yeast, a living organism, produces an enzyme that acts as a catalyst for the reaction. The fermentation

reaction is best carried out at about 37o_C.

yeast

C6H12O6  2C2H5OH + 2CO2 glucose 37o_{C ethanol}

The ethanol formed in the reaction is a member of the family of alcohols called the

alkanols.

After a few days the rate of the fermentation reaction slows down. As the

concentration of alcohol increases the efficiency of the yeast decreases. The alcohol effectively poisons the yeast When the concentration of the alcohol reaches about 10% the yeast stops operating and the fermentation reaction stops. Some alcohol drinks e.g. beer, cider and wine are made by fermentation only.