Food Tech Yearly Notes PDF

Summary

This document provides an overview of food selection and availability, historical changes in food availability in Australia, and various food preservation methods. It details staple foods, global migration influencing food availability, and technological advancements in food preservation.

Full Transcript

FOOD TECH YEARLY NOTES

Food selection and availability

Staple foods must be:
- Readily available
- Provide major source of energy
- Most important source of protein
- Plant or animal origin
- Inexpensive and plentiful

Plant staple foods Meat/ animal staple foods

- Potato - Beef
- Rice - Lamb
- Wheat - Chicken
- Corn - Barramundi
- Salmon

Historical changes to availability of food:

Global migration of cultural groups to Australia:
- Each arrival of large groups resulted in an increase to food availability
- Each group introduced and prepared familiar food to their homelands

Timeline:

1788 First fleet arrived, introducing British foods
like flour, biscuit, salted meats, peas and
rice.

1830s German immigrants arrived in Australia,
establishing vineyards.

1850s The gold rush attracts global migration to
Australia.

1880s Italians migrate to Australia to work in sugar
cane fields

1920s American cereal factories eg Kelloggs

1940s WW2 American troops introduced coca
 cola, hamburgers and processed foods.

1960s-1970s American fast food chains brought to
Australia like Mcdonalds, KFC, pizza hut.

Current In current society Australia has a diverse
range of cuisines from across the world.

Chinese migrants Worked in various roles across Queensland
and NSW; introduced new vegetables and
cooking methods.

Scandinavian migrants Settled in Victoria; founded dairy industry
and introduced things like cheesecake.

Greek migrants Established in Victoria; Introduced vine
leaves, feta cheese and filo pastry.

American migrants Introduced farming, cooking skills and food
chains later to settlement.

Foods native to Australia
- In 1788, prior to European settlement, Aboriginal had a native nutritious food supply
and made use of hunting methods.
- Food source was from the land; animals and plants
- Their food source is known as bush tucker referring to flora, fauna and fungi utlised
for culinary purposes.

Technological developments influence on food availability
- Advancements in food storage resulting in improvements to food quality, availability
and safety
- Transport can lead to wider accessibility
- Maintain constant food supply
- Consume foods produced globally

Marketplace practices:
Where customers purchase their food is a significant factor related to food selection
- International marketplaces sell their food globally to boost their economy.

Advantages Disadvantages
 - Wide variety - Dependent on working technology
- Time saving - Increase in artificial foods

Factors affecting food selection
1. Social
2. Economic
3. Physcological
4. Physiological

Food quality

Food preservation: The aim of preservation is to prevent spoilage as a result of growth of
microorganisms and breakdown of food enzymes. Preservation allows
- For surplus food can be stored to be used in times of shortage
- Enjoy seasonal fruits all year round
- Food to be transported long distances
- To be stored at home for long periods of time without going off

Preservation methods

Name Type of Definition Disadvantages/
preservation Advantages

Canning Heat Heating a can to a High in sodium and
temperature of 120oc sugar, loss of nutrients.
can sterilise contents
and kill spores.

Pasteurisation Heat Rapidly heating milk The heating destroys
to 72oc for 15 enzymes in milk
seconds. otherwise helps the body
assimilate nutrients
especially calcium.

Sugar Chemical High concentrations of High sugar content
sugar effectively
draws out any Loss of vitamins through
microbes in the food the heating process.
and dehydrates them.

Salting/ curling Chemical Coating or placing Alters taste significantly,
food in salt / brine dries out product and
 (salt solution) reduces high sodium.
moisture content.

Vinegar Chemical The acidic High salt content
environment of
vinegar reduces
enzymes and food
spoilage microbes.

Smoking Chemical Exposing food to Often not fully cooked,
smoke from burning or the process can release
smouldering wood carcinogens such as
prevents bacterial nitrates in food which
growth. can be harmful.

Drying Moisture removal The drying method Calorie rich and high in
inhibits the growth of sugar, does not remove
bacteria by removing toxins that were already
water contents- present in the pre dried
bacteria can’t grow product.
without moisture.

Accelerated Moisture removal Food is rapidly frozen Lightweight and easy to
freeze drying and subjected to transport. Retain
radiant heat from a nutritional value and
vacuum removing all taste. Can last for
moisture through months- years and
sublimation. unlike dehydrated foods
they can quickly
rehydrate.

Can be a costly process
due to specialised
equipment.

Freezing Temperature Storing food at -18oc Can damage cell
control for a maximum of 3 structure, when freezing
months. the microbes don’t die it
just stunts its growth
(slows it down).

Vacuum Vacuum packing Storing the food in a There are forms of
packing container/ bottle bacteria that prefer low
where oxygen has oxygen environments
been removed. and grow well in vacuum
packed food. Food nears
to be clean and
uncontaminated prior to
sealing to prevent
breeding for bad bacteria
such as botulism.

Modified Modified This method consists This method only
atmosphere atmosphere of putting gas in the prevents aerobic
 packaging packaging (MAP) packaging. The spoilage bacteria.
(MAP) atmosphere inside Bacteria such as listeria
maintains colour and and clostridium can only
spoilage delays. be controlled by the
control of PH, moisture,
temperature control and
storage time.

Food Hygiene
Food hygiene: Utilising the appropriate equipment, suitable techniques and using safe
hygienic practices whilst handling food.

Low risk foods: Bacteria can’t multiple on dry High risk foods: Foods that support the
food or food that contains high concentrations of multiplication of harmful bacteria. Foods are
sugar, salt, acidic and other preservatives. typically high in protein and moist.

- Cereals - Chicken
- Dried pasta - Meat
- Biscuits - Milk
- Crisps - Cream
- Jam - Soups
- Canned food - Shellfish
- Eggs
- Cooked rice

Direct contact: Direct contact is when bacteria is carried between one food to another when
they touch/ drip. An example is raw meat touching cooked meat.

Indirect contact/ cross contamination: The transfer of bacteria from a contaminated food
(usually raw) to objects used for ready to eat foods. Examples include cutlery, hands,
chopping boards and work surfaces.

Danger zone for bacteria growth:
- The temperature range for multiplication of most foodborne bacteria is 5c to 60c
- Most rapid multiplication = 20c to 50c
- Bacteria die slowly after 61c to 74c
- Bacteria die quickly above 75c

Type Sources Onset Symptoms Duration Destroying
 period

Salmonella -Raw eggs 6-72 -Abdominal 1 to 7 days Heat
-Raw hours pain
poultry -diarrhoea
-Raw meat -Vomiting
-Dairy -Fever
products

Staphylococcus -Meat 1 to 8 -Abdominal 1-2 days None
Aureus -Dairy hours pain
-Egg -Vomiting
-Poultry -Diarrhoea

Clostridium -Poorly 8-24 -Abdominal 12 to 24 Heating
Perfringens packed or hours pain hours leftovers
stocked -Diarrhoea above 74
meat and hours and
vegetables not leaving
covered in food out
soil longer than
2 hours.

E Coli -Sewage 1-8 -Nausea 1-2 days Heating
-soft cheese hours -Abdominal above 71
-minced pain degrees
beef and Diarrhoea
chicken

Listeria- -Dairy 1-70 -Flu When
Dangerous to products days -meningitis temperature
pregnant women, -Raw meat -septicemia exceeds 91
diabetics and and fish degrees
asthmatics -cooked
poultry

Prevention
In order to prevent food poisoning you need to stop bacteria from growing and multiplying on
food. You can also prevent it by destroying existing bacteria typically through heat.

In order to stop bacteria from growing you need to
- Cover food
- Handle raw and cooked foods separately
- Keep animals and insects away
- Dispose of rubbish careful (keep bins covered)
- Maintain hygienic clean practices
Functional properties

Factors that affect functional properties of food:

Oxygen When oxygen interacts with food it can
cause drying and browning- Easy way to
prevent it is airtight containers or plastic
wrap. Some recipes require oxygen e.g to
make a product lighter and have more
volume to rise (airy whipped).

Temperature Temperature can create significant changes
in food for example heating/ cooking meat
for it to go from red to brown.

Acidity (level of PH) The acidity of foods is measured through
the PH scale with below 7 being acidic and
above being alkaline. Water has a neutral
PH of 7 however most foods are between
2-8. Acidic foods include citric acid in
lemons, acetic acid in vinegar and lactic
acid in milk. Alkalis aren’t common in food
however bicarbonate soda contains alkalis
so when combined with acid it creates
carbon dioxide so it can rise.

Agitation Agitation methods include beating, whisking
and folding ingredients. For example in
pavlova, egg whites are beaten to stretch
egg protein and form a firm structure with
high peaks, then corn flour is gently folded
in to not deflate the structure of the egg
whites.

Enzymes Enzymes main function is to catalyse
(speed up) chemical reactions. They are
responsible for both ripening and
decomposing fruits and vegetables. They
can also be used to tenderise foods.

Addings other ingredients Combining ingredients can change the end
result of a food. Sugar and salt are
examples of key foods that serve particular
functions in foods. Timing is also important
when adding ingredients to succeed. For
example if you add in the sugar too early in
pavlova the egg whites will become
unstable and it will lose its structure.

Protein:
Type Meaning Example

Protein structure Proteins form part of the The shape of protein can
structure in a cell which are affect its ability to denature,
made up of small units coagulate, gel, foam or
called amino acids. Due to brown.
proteins being long they
rather make a globe shape
or fibrous shape
(elongated).

Denaturation Denaturation is a process This separation is caused
that occurs when the by 5 factors:
structure of protein breaks Temperature- Cooking a
apart. When bonds are steak
broken the strands separate Agitation- whisking egg
or unwind. whites
Acidity- Making sour cream
and yoghurt
Enzymes- Marinating meats
Salt- Cooking eggs with salt
water

Coagulation When a protein separates If coagulation occurs for too
from other nutrients from a long (overcoagulation) the
liquid to a solid. This occurs protein shrinks and
after denaturation- the toughens the forcing liquids
denatured proteins start to out from inside proteins.
rejoin and form a different
structure and create a solid
mass.

Gelatation (can occur in Gelation is the process that For gels to form these must
protein and occurs after coagulation be present:
carbohydrates) when gel forms. This
happens when tiny droplets - Heat
of liquid become trapped - Acids
within coagulated proteins - Enzymes
which form soft elastic foods
(custard and cheese).

Foaming The process of air being Aeration in egg whites can
beaten into a liquid to create be affected by these
foam. An example is egg factors:
whites in meringues and Temperature- Better results
cakes. at room temperature
Acids- Small amounts
(cream of tartar lengthens
process but provides
stability)
Agitation- Faster beating
and finer blades will produce
greater and finer foam.
 Adding other ingredients-
Egg yolk prevents foaming,
water increases volume but
decreases stability and
sugar added at the end
makes foam shinier and
more stable.

Browning- Oxidation The exposure of air to turn The process involves:
(oxygen) meat from red to brown. - Myoglobin being
Various factors can increase exposed to air
the process time like heat, (leaving meat
freezing temperatures, uncovered).
certain metals and bacteria. - Oxygen changes
myoglobin to
produce oxyglobin.
- The oxyglobin turns
into metmyoglobin
which is brown.

Browning- Non- enzymic This form of browning - Myoglobin
(Applying heat to meat involves the use of applying denatures, turning
surface) heat to turn meat from red to meat from pink to
brown (cooking). There is no brown to grey
oxygen factor involved. - The process begins
on the outside and
transfer to inside
- When the meat
reaches 82C it is
considered well
done.

Browning- Maillard The application of dry heat Ways to achieve:
reaction to foods containing protein - Baking
(Heating without touching) and sugar. It is typically - Roasting
characterised by foods - Grilling
creating a yellow to brown - Barbequing
crust eg bread, roast meat, - Frying
cake and fried chips.
Moist heat methods (no
crisp crust)
- Steaming
- Boiling

Carbohydrates:
The 3 types of carbohydrates are polysaccharides, disaccharides and monosaccharides

Functional properties:
Type Meaning Factors affecting
Gelatinisation The ability of starch to thicken Temperature- Requires
mixtures in the presence of heat. warm moist conditions,
Common thickening agents are cannot thicken in cold water.
plain wheat flour, corn flour and
arrowroot. Agitation- Essential to
create a smooth gel formula.
If not used the starch
granules will create a lumpy
formula.

Other ingredients and PH-
Sugar and acids create a
significant effect as sugar
can absorb more water
making mixture less stable.
Things like lemon juice also
need to be added after the
formula is thickened and
boiled.

Dextrinisation The process when starch is Can be caused by:
broken down into dextrins e.g - Exposure to dry heat
bread being toasted. Starch can - Action of acids
undergo a partial breakdown into - Action of certain
shorter glucose chains (dextrins). enzymes

Crystallisation The ability of sugar to dissolve and Temperature- Higher
create crystals. Used in temperatures cause
confectionery such as toffee, molecules to move faster
fudge and caramel. The process and collide more frequently (
consists of the sugar being harder solution)
dissolved in liquid, heat causing
evaporation and allowing mixture Acid- Adding acids such as
to cool and sugar reforms cream or vinegar prevents
(crystallises). large crystals being formed
(smoother texture)

Agitation- Stirring solution
encourages crystals to
develop. Best to stir after
solution after it has been
boiled to prevent grainy
texture.

Other ingredients-
Monosaccharides being
included (honey, acidic
ingredients) help to achieve
a smoother texture.
 Caramelisation Sucrose melts at 186C so when - Occurs without water
temperature exceeds, the acid as it evaporates prior
forms and molten sugars turn light to caramelisation
brown. (caramelises) - Caramelised sugar
adds a distinctive
flavour to foods like
cake and milk.

Nutrition
There are 6 essential nutrients that your body requires for vital functions including digestion,
absorbing food, breathing, pumping/ filtering blood throughout the body, growing and
repairing tissue and defending against infection. Nutrients cannot be produced in the body
they need to come from food.

Macronutrients: Provide energy. Consists of protein, lipids and carbohydrates.

Micronutrients: Gives the body a stronger immune system. Includes vitamins, minerals and
trace elements.

Macronutrients Micronutrients

- Protein - Vitamins
- Lipids - Minerals
- Carbohydrates

The sixth essential nutrient is water which is required to survive.

Structure and composition

Nutrient Structure Composition

Carbohydrates 3 groups: Composed of carbon,
- Monosaccharides hydrogen and oxygen atoms
- Disaccharides in the ratio 1:2:1
- Polysaccharides

Protein Protein is made up of amino Composed Carbon,
 linked by peptide bonds. hydrogen, oxygen and
nitrogen.

Lipids (fats) Made up of fatty acids Composed of carbon,
attached by a glycerol hydrogen and oxygen. Other
molecule. elements are sulphur,
nitrogen and phosphorus.

Water Composed of 2 hydrogen
atoms and 1 oxygen atom.

Vitamins Dependent on what vitamin Dependent on what vitamin

Minerals Dependent on what mineral Dependent on what mineral

Functional properties

Nutrient Functional properties

Protein - Provides structure for cells, tissue
and organs
- Serves as enzymes, hormones and
antibodies; regulating bodily
functions
- Acts as a source of energy when
carbohydrates and fats aren’t
available.

Carbohydrates - Provides energy for physical activity
and brain function
- Source of dietary fibre, aiding
digestion
- Quick source of energy specifically
simple forms such as glucose

Lipids - Concentrated source of energy;
more than twice the energy of
carbohydrates and protein.
- Insulates body and vital organs
- Aid the absorption for fat soluble
vitamins (A,D,E,K)

vitamins - Acts as coenzymes, facilitating
enzymatic reactions within the body
- Crucial role in energy metabolism,
immune function and tissue repair
- Maintain healthy skin, eyes and
bones
 Minerals - Promotes good muscle, bone and
nerve function and oxygen transport
- Acts as a cofactor for enzymatic
reactions in the body.
- Helps maintain fluid and acid-base
balance.

Water - Vital for hydration, nutrient
transportation, waste removal and
temperature control.
- Facilitates chemical reactions in the
body
- Main PH levels and electrolyte
balance.

Nutrient interrelationships
Nutrient interrelationships occur when one nutrient relies on another nutrient to carry out a
particular task eg being absorbed into the body.

Iron and vitamin C:
- Vitamin C assists the body to absorb iron due to its acidic composition
- Both nutrients work together to create red blood cells. Iron is crucial for haemoglobin
whilst vitamin C is good for blood vessels.
- Many high fibre and dairy foods can block iron absorption

Iron and fibre:
- Fibre reduces the uptake of iron by absorbing iron from the digestive tract therefore
allowing absorption through the abdominal wall.
- Excess fibre foods (leafy greens and fruit) can interfere with iron absorption,
preventing its uptake into the bloodstream.

Calcium, phosphorus, vitamin D and lactose:
- Improve the body's uptake of calcium
- Vitamin D controls calcium and phosphorus levels in the blood and aids calcium
absorption.
- Lactose (disaccharide) improves calcium transfer through the intestinal wall and into
the blood.

Calcium and fibre:
- Insoluble fibre can’t be processed by the digestive system
- Fibre reduces uptake of calcium through the digestive tract to be able to absorb in
intestinal wall
Folate and vitamin B12 (cobalamin)
- Both are required to produce protein cells particularly needed to produce red blood
cells.

Sodium and potassium:
- Both rely on each other to properly function e.g maintaining osmotic pressure in cells,
muscle concentration and relaxation, nerve impulse transmission (sodium and
potassium levels need to be the EXACT same)

Digestion: The chemical and mechanical breakdown of food into its smaller nutritional
components.

Absorption: The movement of these components from the gut into the blood and lymphatic
systems of the body.

Metabolism: This refers to all the chemical processes that utilise nutrients to create other
substances.

When nutrients are broken down into their
Catabolism components; typically for energy or to
create other substances. For example
starvation causes muscles to break down in
order to supply energy.
 Occurs when new molecules are produced
Anabolism from substances released by catabolism.
For example when recovering from an injury
anabolism creates new protein to repair the
damaged tissue.

Nutrient requirements throughout the life cycle

Pregnancy and Lactation: It is important for pregnant women to maintain a healthy diet in
order for the foetus to grow and develop. If the woman is lacking any nutrients the foetus
uses her body stores, ultimately poorly affecting her own health. If her body stores are
insignificant it can lead to the baby having a low birth weight or birth defects.

Pregnant women:

Protein - Growth of foetus and placenta
- The uterus, breast and blood supply
increase in size which requires
protein.

Energy - Pregnant women experience
increases in their BMR (basal
metabolic rate) likely resulting an
increase in energy intake

Vitamins - Vitamin C is used for forming strong
healthy tissue in the foetus
- Vitamin C also assists with iron
absorption
- Folate B12 are both involved in
forming red blood cells

Minerals - Minerals are important due to a lack
of iron (anaemia is very common) as
they require double the amount of
iron to form red blood cells.

Nutritional requirements lactation:
- In order for women to properly produce breast milk it requires the mother’s body to
have a rich energy source
- It is also essential for Women to consume complete protein to maintain muscle mass
- Vitamin C is a key antioxidant in milk
- B group vitamins aids development and growth in the mother’s body to produce an
adequate supply of breast milk
- Iron is used to make haemoglobin that carries oxygen through red blood cells
 - Calcium compensates for the loss in bone density from producing milk

Adolescence
- It is essential adolescence consumes energy due to the growth of bones, muscles,
tissues and increase in blood volume.
- Protein and B group is required to build new body tissue such as muscles
- Minerals such as calcium, phosphorus and iron are required to lengthen bones

Adults:
-