Organisation Flashcards

Question 1

Q

What is a cell?

Answer

A

The basic building block of a living organism

Question 2

Q

What is a tissue?

Answer

A

A group of cells with a similar structure and function working together

Question 3

Q

What is an organ?

Answer

A

A group of different tissues that work together to perform a certain function

Question 4

Q

What is an organ system?

Answer

A

group of organs that work together to perform a specific function

Question 5

Q

What is the main function of the digestive system?

Answer

A

To digest food and absorb the nutrients obtained from digestion.

Question 6

Q

What is the role of pancreas and the salivary gland in the digestive system?

Answer

A

The pancreas and the salivary gland are glands which produce digestive juices containing enzymes.

Question 7

Q

What is the role of the stomach in the digestive system?

Answer

A

Produces hydrochloric acid - which kills any bacteria present and provides the optimum acidic pH for the protease enzyme to function.

Question 8

Q

What is the role of the small intestine in the digestion system?

Answer

A

The small intestine is the site where soluble food molecules are absorbed into the bloodstream

Question 9

Q

What is the role of the liver in the digestive system?

Answer

A

Produces bile (stored in the gallbladder) which emulsifies lipids and allows the lipase enzyme to work more efficiently.

Question 10

Q

What is the role of the large intestine in the digestion system?

Answer

A

Absorbs water from undigested food and then produces faeces

Question 11

Q

What is the role of enzymes in the digestive system?

Answer

A

Enzymes act as biological catalysts which speed up the rate of biological reactions (the breakdown of food) without being used up.

Question 12

Q

How does the shape of an enzyme affect its function?

Answer

A

Enzymes have a specific active site which is complementary to their substrate.

Question 13

Q

What is metabolism?

Answer

A

The sum of all the reactions in a cell or an organism

Question 14

Q

What types of metabolic reactions do enzymes catalyse?

Answer

A

● Building larger molecules from smaller molecules
● Changing one molecule to another
● Breaking down larger molecules into smaller molecules

Question 15

Q

What is the lock and key hypothesis of enzyme function?

Answer

A

The shape of the enzyme active site and the substrate are complementary, so can bind together to form an enzyme-substrate complex.

Question 16

Q

How does temperature affect enzyme action?

Answer

A

Up to a certain point, increasing temperature increases enzyme action, as molecules have a higher kinetic energy. Above a certain temperature, the shape of the active site is altered and the enzyme becomes denatured, so it can no longer catalyse the reaction. The optimum temperature is around 37°.

Question 17

Q

How does pH affect enzyme function?

Answer

A

The optimum pH for most enzymes is 7 (apart from proteases in the stomach). If the pH is too extreme, the shape of the active site may be altered and the enzyme may no longer work.

Question 18

Q

Where are carbohydrases, proteases, and lipases produced in the body?

Answer

A

● Carbohydrases: amylase - salivary gland and pancreas; maltase - small intestine.
● Proteases: pepsin - stomach; others - pancreas and small intestine.
● Lipases: pancreas and small intestine.

Question 19

Q

What is the role of carbohydrases in the digestive system?

Answer

A

Carbohydrases break down carbohydrates into monosaccharides and disaccharides. Amylase breaks down starch into maltose, and maltase breaks down maltose into glucose.

Question 20

Q

What is the role of proteases in the digestive system?

Answer

A

Proteases break down proteins into amino acids.

Question 21

Q

What is the role of lipases in the digestive system?

Answer

A

Lipases break down lipids into fatty acids and glycerol.

Question 22

Q

How are the products of digestion used?

Answer

A

They are used to build bigger molecules such as carbohydrates and proteins. Glucose is used as a substrate in respiration.

Question 23

Q

Where is bile made and stored in the body?

Answer

A

Bile is made by the liver and stored in the gallbladder

Question 24

Q

What is the role of bile in the digestive system?

Answer

A

● Bile is an alkaline substance which neutralises the hydrochloric acid secreted by the stomach.
● Bile emulsifies lipids to form droplets - this increases the surface area for the lipase enzyme to work on.

Question 25

Q

What is the heart?

Answer

A

An organ that pumps blood around the body

Question 26

Q

What is the purpose of the circulatory system?

Answer

A

Carries oxygen and other useful substances to bodily tissues, and removes waste substances.

Question 27

Q

How does the double circulatory system work?

Answer

A

● One pathway carries blood from the heart to the lungs - where the gaseous exchange of oxygen and carbon dioxide takes place.
● One pathway carries blood from the heart to the tissues.

Question 28

Q

Where does blood pumped by the right ventricle go?

Question 29

Q

Where does blood pumped by the left ventricle go?

Answer

A

Body tissues

Question 30

Q

Why is the double circulatory system important?

Answer

A

It makes the circulatory system more efficient - for example, oxygenated blood can be pumped around the body at a higher pressure by the left ventricle.

Question 31

Q

How many chambers does the heart have and what are they called?

Answer

A

4 - right atrium, right ventricle, left atrium, left ventricle.

Question 32

Q

Why is the wall of the left ventricle thicker?

Answer

A

The left ventricle has to pump blood at a higher pressure around the whole body.

Question 33

Q

What are the four main blood vessels associated with the heart?

Answer

A

● Aorta (left) - carries oxygenated blood from the heart to the body.
● Pulmonary vein (left) - carries oxygenated blood from the lungs to the heart.
● Vena cava (right) - carries deoxygenated blood from the body to the heart.
● Pulmonary artery (right) - carries deoxygenated blood from the heart to the lungs.

Question 34

Q

What is the purpose of valves in the heart?

Answer

A

Prevent back flow of blood

Question 35

Q

What is the purpose of coronary arteries?

Answer

A

Coronary arteries supply the heart muscle with oxygenated blood.

Question 36

Q

Describe the process of blood flow through the heart

Answer

A

● Blood enters the right atrium via the vena cava, and the left atrium via the pulmonary vein.
● The atria contract, forcing blood into the ventricles and causing valves to shut.
● After the ventricles contract, blood in the right ventricle enters the pulmonary artery (to the lungs) and blood in the left ventricle enters the aorta (to the body).

Question 37

Q

What is the approximate value of the natural resting heart rate?

Answer

A

70 beats per minute

Question 38

Q

How is heart rate controlled?

Answer

A

Heart rate is controlled by a group of cells in the right atrium which act as a pacemaker. They release waves of electrical activity which cause the heart muscle to contract.

Question 39

Q

How can an abnormal heart rhythm be treated?

Answer

A

Irregular heart rhythms can be treated using an artificial pacemaker, which sends out electrical signals to correct the heart’s rhythm.

Question 40

Q

What are the three types of blood vessel in the body?

Answer

A

arteries, veins, capillaries

Question 41

Q

How are arteries adapted to their function?

Answer

A

they have thick layers of muscle to make them strong enough to withstand the high pressure at which they carry blood
they have strong elastic fibres to allow them to stretch and spring back

Question 42

Q

What is the veins function?

Answer

A

carry blood back to the heart

Question 43

Q

How are veins adapted to their function?

Answer

A

the walls are not thick as blood is not carried at a low pressure
they have a big lumen to help blood flow
they have valves to keep blood flowing in the right direction

Question 44

Q

What is the capillaries function?

Answer

A

Enable transfer of substances between the blood and tissues

Question 45

Q

How are capillaries adapted to their function?

Answer

A

they have permeable walls so that substances can diffuse in and out
their walls are only one cells thick which increases the rate of diffusion by decreasing the distance over which it occurs
capillaries are really close to every cell in the body to exchange surfaces with them

Question 46

Q

How would you calculate the rate of blood flow?

Answer

A

Volume of blood / number of minutes

Question 47

Q

Where are the lungs found in the body?

Answer

A

The lungs are located in the thorax (within the chest). They are protected by the ribcage and separated from the rest of the abdomen by the diaphragm.

Question 48

Q

What tissues and organs make up the gas exchange system?

Answer

A

trachea, intercostal muscles, bronchi, bronchioles, alveoli, diaphragm

Question 49

Q

How are lungs ventilated by the action of intercostal?

Answer

A

Intercostal muscles contract, rib cage moves upwards, diaphragm flattens and volume of the chest increases, increased volume results in decreased pressure no air is drawn into lungs down pressure gradient (the inverse occurs wen air moves out of the lungs)

Question 50

Q

Describe how gas exchange occurs at the alveoli

Answer

A

● Oxygen diffuses from the alveoli into the capillary bloodstream down its concentration gradient.
● Carbon dioxide diffuses from the capillary into the alveoli down its concentration gradient.

Question 51

Q

Describe how alveoli are adapted for gas exchange

Answer

A

● Small and arranged in clusters - larger surface area.
● Rich blood supply - maintains concentration gradient.
● Thin alveolar wall - short diffusion pathway.

Question 52

Q

How would you calculate the breathing rate?

Answer

A

Number of breaths / number of minutes

Question 53

Q

What substance carries the different components of blood around the body?

Question 54

Q

What substance are transported by plasma?

Answer

A

● Red blood cells
● White blood cells
● Platelets
● Carbon dioxide
● Urea
● Products of digestion

Question 55

Q

What is plasma?

Answer

A

A yellow liquid within blood that transports substances around the body.

Question 56

Q

What is the purpose of red blood cells in blood?

Answer

A

Transport oxygen around the body

Question 57

Q

How are red blood cells adapted to their function?

Answer

A

Biconcave discs - increases surface area to volume ratio
No nucleus - more space for haemoglobin

Question 58

Q

What is the purpose of white blood cells in blood?

Answer

A

They form part of the immune system, which protects the body from invading pathogens.

Question 59

Q

How are white blood cells adapted for their function?

Answer

A

● Have a nucleus - contains DNA which codes for proteins
● Can produce antibodies
● Can produce antitoxins
● Can engulf and digest pathogens (phagocytosis)

Question 60

Q

What is the purpose of platelets in blood?

Answer

A

Platelets are small cell fragments which aid the clotting of blood at the site of a wound.

Question 61

Q

Why is the function of platelets important?

Answer

A

Platelets aid in the process of blood clotting (conversion of fibrinogen to fibrin). As a result, red blood cells are trapped in the fibrin network, forming a clot which prevents excessive bleeding. Scab formation (after the clot has dried) prevents bacteria from entering the wound.

Question 62

Q

What is coronary heart disease?

Answer

A

When the coronary arteries that supply the blood to the muscle of the heart get blocked by layers of fatty material building up and this restricts the supply of oxygen to the heart, possibly leading to a heart attack or death

Question 63

Q

What is a stent and how does it work?

Answer

A

a metal mesh tube that is inserted into a blocked artery so that it remains open. The stent is inflated using a balloon, which is later removed to allow blood to flow freely.

Question 64

Q

What are the advantages and disadvantages of stents?

Answer

A

Advantages
● Insertion can be carried out without general anaesthetic
● Quick recovery time
● Lower the risk of a heart attack
Disadvantages
● Risk of postoperative infection
● Risk of blood clots

Answer 63

A

They are drugs which lower the amount of ‘bad’ cholestrol in blood which contributes to the development of coronary heart disease

Answer 64

A

Advantages
● Reduce risk of strokes, coronary heart disease and heart attacks
● Increase level of HDL (good) cholesterol
Disadvantages
● Have to be taken continuously
● May have side effects
● Effect may not be immed

Answer 65

A

A surgery where blocked coronary arteries are replaced with sections of veins taken from other parts of the body.

Answer 66

A

Blood flows in the wrong direction, causing the heart to become less efficient. Patients may become breathless and die as a result.

Answer 67

A

● Mechanical - made of metal or polymers
● Biological - taken from animals (pigs, sometimes humans)

Answer 68

A

Advantages
● Last for a very long time
Disadvantages
● Need to take medication to prevent blood clotting around valve

Answer 69

A

Advantages
● Work very well - no medication required
Disadvantages
● Only lasts 12-15 years

Answer 70

A

Artificial hearts are intended to support a patient’s heart while they wait for a suitable donor heart.

Answer 71

A

Advantages
● Less likely to be rejected by immune system
● Allows damaged heart to rest to help recovery
Disadvantages
● Risk of infection due to surgery
● Risk of blood clots
● Have to take blood-thinning drug

Answer 72

A

A state of complete physical, mental, and social well-being

Answer 73

A

A disease that is caused by a pathogen which can be spread from person to person

Answer 74

A

A disease that cannot be passed from person to person

Answer 75

A

● Too little food / lack of nutrition - anaemia, vitamin deficiencies.
● Too much food / too much unhealthy food - obesity, type 2 diabetes.

Answer 76

A

Prolonged stress is linked to a wide range of health problems including heart diseases, cancers and mental health issues.

Answer 77

A

Many life factors such as location, gender, financial status, ethnic group and healthcare provision can impact a person’s mental and physical health.

Answer 78

A

● Infection with certain viruses can lead to cancer
● A compromised immune system can lead to a higher risk of infection with communicable diseases.
● Immune reactions caused by a pathogen can trigger allergic reactions.

Answer 79

A

any attribute, characteristic or exposure of an individual that increases the likelihood of developing a disease or injury

Answer 80

A

A mechanism which demonstrates how one factor biologically influences another.

Answer 81

A

● Diet: high levels of LDL cholesterol causes arteries to become blocked, increasing blood pressure and the risk of a heart attack.
● Smoking: nicotine increases heart rate; other chemicals damage the artery lining and increase blood pressure.
● Exercise: lowers blood pressure, reducing strain on the heart.

Answer 82

A

● Obesity is strongly linked with the onset of type 2 diabetes - a disease in which the body stops responding to insulin.

Answer 83

A

● Excessive long-term alcohol use may lead to liver cirrhosis (scarring of the liver).
● Increases risk of liver cancer.
● Damages brain tissue and nerve cells.

Answer 84

A

● Tar in tobacco can damage the alveoli of the lungs, leading to chronic obstructive pulmonary disease (COPD).
● Tar also damages the cells which line the lungs, leading to lung cancer.

Answer 85

A

● Carbon monoxide from tobacco smoke reduces the amount of oxygen the foetus receives, which can lead to premature birth or stillbirth.
● Alcohol passes across the placenta and damages the developing foetus. Once born, the baby may have a number of deformities and health problems

Answer 86

A

Ionising radiation is a type of carcinogen which can cause mutations in DNA, potentially leading to cancer.

Answer 87

A

the disease caused by an uncontrolled division of abnormal cells in a part of the body.

Answer 88

A

● A tumour that is contained in one location, usually within a membrane.
● They are not cancerous and do not invade other parts of the body.
● Can grow large very quickly - may cause damage to another organ.

Answer 89

A

● A tumour that can spread around the body via the blood and lymphatic system.
● Can invade other tissues (metastasis).
● Cells divide more rapidly and have a longer lifespan.
● Disrupts healthy tissues

Answer 90

A

● Genetics - certain genes increase the risk of breast and ovarian cancer
● Smoking
● Obesity
● Ionising radiation - UV light and X-rays
● Viral infections - HPV

Answer 91

A

Epidermal tissue covers the entire plant. It has a waxy cuticle which helps reduce water loss from the leaf surface.

Answer 92

A

Palisade mesophyll tissue contains lots of chloroplasts which allows photosynthesis to progress at a rapid rate.

Answer 93

A

Spongy mesophyll tissue has lots of air spaces which allow gases (including oxygen and carbon dioxide) to diffuse in and out.

Answer 94

A

● Made up of dead cells which form a continuous hollow tube - allows the movement of water and mineral ions from the roots to the leaves.
● Strengthened by lignin - makes the vessel strong and waterproof.
● Has bordered pits - allow minerals to be transported to specific places.

Answer 95

A

Sieve plates are at the ends of the walls of the vessel cells which allow sugars to move to the cell interior

Answer 96

A

Made up of stem cells which can differentiate into many different cell types, allowing the plant to grow.

Answer 97

A

The epidermis, the palisade mesophyll, the spongy mesophyll, the xylem, the phloem, guard cells.

Answer 98

A

To open and close stomata to reduce water loss

Answer 99

A

Stomata allow the control of gaseous exchange and water loss from the leaf.
● More stomata on the base of the leaf - minimises water loss as this side is cooler and shaded.
● Have guard cells

Answer 100

A

Root hair cells allow the uptake of water and mineral ions from the soil.
● Large surface area - maximises rate of absorption.
● Contain lots of mitochondria – release energy for active transport

Answer 101

A

Transport dissolved sugars from the leaves to the rest of the plant.

Answer 102

A

Transpiration is the evaporation of water vapour from the surface of a plant.

Answer 103

A

● Water evaporates from the leaf surface via the stomata.
● Water molecules cohere together - more water is pulled up the xylem in an unbroken column.
● More water is taken up from the soil - creating a continuous transpiration stream.

Answer 104

A

Increasing the temperature increases the rate of transpiration.
● Higher rate of evaporation and diffusion of water - therefore rate of transpiration is increased.

Answer 105

A

Increasing relative humidity decreases the rate of transpiration.
● High relative humidity will reduce the water vapour concentration gradient. The rate of evaporation will decrease, and so will the rate of transpiration.

Answer 106

A

Increasing wind speed/air movement increases the rate of transpiration.
● Increased air movement lowers water vapour concentration outside of the leaf. This increases the water vapour concentration gradient, thereby increasing the rate of evaporation and transpiration.

Answer 107

A

Increasing the light intensity increases the rate of transpiration.
● The rate of photosynthesis increases, so more stomata open. This allows the rate of evaporation to increase, increasing the rate of transpiration.

Answer 108

A

Organisms that are made of multiple cells

Answer 109

A

A sub-cellular structure that carries out a specific function within a cell

Answer 110

A

Muscular tissue and nervous tissue

Answer 111

A

Stomach and heart

Answer 112

A

Digestive system and immune system

Answer 113

A

Epidermal tissue and palisade mesophyll

Answer 114

A

Roots and stem

Answer 115

A

When cell growth and division not under normal control processes

Answer 116

A

Lump of cells that have developed the ability to travel to other parts of the body

Answer 117

A

A lump of cells formed from a cell transported from a primary tumour

Answer 118

A

A cancer-causing substance

Answer 119

A

Type of radiation that can cause mutations in DNA

Answer 120

A

Specific genes which increase the risk of certain health problems

Answer 121

A

Specific actions which increase the risk of certain health problems

Answer 122

A

A treatment for cancer using radiation

Answer 123

A

A treatment for cancer using drugs

Answer 124

A

The study of the distribution of mental or physical disorders in a population

Answer 125

A

Connective tissue made of plasma, red blood cells, white blood cells and platelets

Answer 126

A

Particles in the blood needed for blood clotting

Answer 127

A

A disease of the heart and blood vessels

Answer 128

A

The clogging of the vessels that surround the heart muscle

Answer 129

A

A wire mesh tube used to keep arteries open, can sometimes only be a temporary solution

Answer 130

A

A heart valve which is damaged

Answer 131

A

A replacement heart valve made with the valves and tissues derived from animals or human donors

Answer 132

A

A non-biological replacement heart valve

Answer 133

A

A heart that comes from a deceased donor

Answer 134

A

A mechanical pump implanted in place of a diseased or damaged heart

Answer 135

A

Pumps oxygenated blood to the body through the aorta

Answer 136

A

Pumps deoxygenated blood to the lungs through the pulmonary artery

Answer 137

A

Upper chambers of the heart that receive blood, the right atrium receives blood from the vena cava and the left atrium receives blood from the pulmonary vein

Answer 138

A

The largest artery in the body, carries oxygenated blood to the body from the left ventricle

Answer 139

A

The largest vein in the body, carries deoxygenated blood from the body back to the heart, specifically to the right atrium

Answer 140

A

Carries deoxygenated blood from the heart to the lungs

Answer 141

A

Carries oxygenated blood from the lungs to the heart

Answer 142

A

Blood vessels that supply the muscle of the heart

Answer 143

A

Allows air to pass to and from lungs

Answer 144

A

Two short branches at the lower end of the trachea that carry air into the lungs

Answer 145

A

Tiny sacs of lung tissue where gaseous exchange takes place with the blood

Answer 146

A

An interconnecting network of capillaries surrounding the alveoli

Answer 147

A

Blood vessels with thick walls, a narrow lumen and elastic fibres, they carry blood away from the heart

Answer 148

A

Blood vessels with valves to prevent the back-flow of blood, thin walls and a large lumen, they carry blood back to the heart

Answer 149

A

Smallest and thinnest blood vessels where the exchange of molecules takes place, they consist of a single layer of cells

Answer 150

A

The volume of blood passing through a blood vessel per unit of time

Answer 151

A

The natural resting heart rate is controlled by a group of cells in the right atrium that act as a pacemaker

Answer 152

A

Electrical devices used to correct irregularities in the heart rate

Answer 153

A

The human circulatory system is a double system that has a circuit linking the heart and lungs and a circuit that links the heart to the rest of the body

Answer 154

A

A container of water heated to a given temperature for control purposes

Answer 155

A

Equipment used to observe the colour changes of small quantities of reacting mixtures

Answer 156

A

A substance used in chemical analysis to test for the presence of specific molecules

Answer 157

A

Relates to measuring the quality of something rather than its quantity

Answer 158

A

A result that shows the presence of a specific substance

Answer 159

A

A result that does not show the presence of a specific substance

Answer 160

A

A body system that breaks down large insoluble food molecules into smaller useful soluble molecules via enzymes, chemicals and mechanical action

Answer 161

A

Where food is taken into the body and digestion starts, the mouth contains digestive saliva and can also mechanically digest food via teeth and the tongue

Answer 162

A

Glands in the mouth which release saliva and digestive enzymes such as amylase which breaks down starch

Answer 163

A

A tube that uses repeated muscular contraction to move food from the mouth to the stomach

Answer 164

A

The involuntary constriction and relaxation of the muscles of the oesophagus or intestine, creating wave-like movements that push food contents along

Answer 165

A

Emulsifies fat and neutralises stomach acid to help create alkaline conditions in the small intestine, for optimal intestinal enzyme activity

Answer 166

A

Allowing fat and water to mix, produces fat droplets with an increased surface area that makes them easier to break down

Answer 167

A

Stores bile produced by the liver

Answer 168

A

Carries bile from the liver and gallbladder and empties it into the duodenum

Answer 169

A

A gland which produces digestive enzymes such as amylase, protease and lipase that can be released into the small intestine

Answer 170

A

Conducts pancreatic juices containing enzymes from the pancreas to the duodenum

Answer 171

A

The first section of the small intestine, receives digestive enzymes from the pancreas and bile from the gall bladder

Answer 172

A

The site of digestion completion where small soluble molecules are absorbed into the bloodstream

Answer 173

A

The last portion of the small intestine, the walls of the ileum can produces enzymes such as amylase, protease and lipase to aid digestion

Answer 174

A

Small finger-like projections on the walls of the small intestine, increases surface area for absorption of soluble food molecules

Answer 175

A

Where water is absorbed from food into the bloodstream

Answer 176

A

A small pouch-like sac of tissue at the end of the large intestine

Answer 177

A

Where faeces is stored before excretion

Answer 178

A

Where faeces leave the body

Answer 179

A

Tissue that covers and protects the plant

Answer 180

A

A layer on the surface of the leaf which protects the plant and reduces water loss, thicker on the upper surface

Answer 181

A

Photosynthetic tissue below the epidermis in a leaf, palisade cells contain high concentrations of chlorophyll and high quantities of chloroplasts for photosynthesis

Answer 182

A

Layer of tissue found beneath the palisade mesophyll that is packed loosely for efficient gas exchange of carbon dioxide and oxygen

Answer 183

A

Non-living vascular tissue that carries water and dissolved minerals from the roots of a plant to its leaves, the xylem is hollow and nearby cells are lignified or dead so water can move continuously

Answer 184

A

The aerial portion of a plant body consisting of stems, leaves and flowers

Answer 185

A

Underground plant organs that absorb water and minerals

Answer 186

A

Small openings on the underside of a leaf through which oxygen, carbon dioxide and water can move

Answer 187

A

Pairs of cells that surround the stomata and control their opening and closing to optimise gas exchange and reduce water loss

Answer 188

A

Cells that absorb water and mineral ions from the soil, via diffusion, osmosis or active transport using structures with a large surface area

Answer 189

A

Changing temperature, humidity, air movement and light intensity

Answer 190

A

Light, wind and heat will increase the rate of transpiration, humidity will decrease the rate of transpiration

Answer 191

A

The rate of water loss from a plant

Answer 192

A

A device used for measuring the rate of water uptake of a plant due to photosynthesis and transpiration, a bubble of water will move along the potometer to indicate the rate of transpiration

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Organisation Flashcards

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