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B13.1 Coordination and Response
B13.2 Hormones
B13.3 Homostasis
B14 Drugs
B10 Diseases and Immunity
100

State the names of the two parts of the central nervous system. .................................................................. and ..................................................................

brain and spinal cord

100

Identify the hormone, released by the pancreas, that turns glucose into glycogen.

insulin

100

The pancreas stops secreting glucagon when the level of blood glucose returns to a safe normal. Name the scientific term for this mechanism.

Negative feedback

100

What is a drug?

Any substance taken into the body that changes or affects the chemical reactions in the body.

100

Vaccination can be used to trigger an active immune response. Various methods of vaccination are possible; however, it is vital that the vaccine contains the _____

 on the surface of the pathogen.

Antigens

200

Complete the missing steps in the reflex arc:____

 → sensory neurone → relay neurone → ____

 neurone → effector

  • receptors cell

  • motor neuron

200

Identify the names of the hormones created by the testes and the ovaries.

Testosterone, oestrogen

200

If blood glucose concentration is low, what is released by the pancreas causing the concentration to rise ?

Glucagon

200

Which types of disease are antibiotics able to treat?

bacterial infections

200

Identify structure A and B on the diagram.

A - antibody, B - antigen

300

Outline the main difference between the Central nervous system and the Peripheral nervous system.

The CNS consists of the brain and spinal cord and is responsible for coordinating all reactions and nervous communication around the body. While the PNS are nerves in the other parts, which are responsible for transmitting the impulses from the CNS to all parts of the body.

300

Describe fully what a hormone is and the role of the endocrine system.

Hormone:

  • Chemical substance

  • Produced by glands

  • Carried by the blood

  • Alters the activity of one or more specific target organs

Endocrine system:

  • Series of glands that produce hormones

300

On a hot sunny day the body temperature increases. 

Describe how the body responds to reduce body temperature.

increased sweat / increased sweating ; vasodilation / description of vasodilation / arterioles widen ; hairs lie flat ;

300

Describe why antibiotics cannot be used to attack viruses.

They do not have cell membranes or cell walls, and they do not reproduce by dividing.

300

The flu virus has antigens on its surface. Proteins with a specific shape bind to antigens. These proteins are called ................................................ . This causes the virus to be destroyed or marked for engulfing by ................................................ . After the infection, a human has ................................................ immunity to the flu virus.

1. antibodies ;

2. phagocytes ; 

3. active ;

400

Complete the diagram.

  1. Receptor in the skin 

  2. Effector 

  3. Sensory neurone

  4. Relay neuron

400

Identify 3 effects adrenaline has on the body and describe each of their purposes.

1. Increased heart rate: increase the delivery of glucose and oxygen to muscles around the body

2. Increased breathing rate: increase the supply of oxygen into the blood and remove carbon dioxide from the blood

3. Dilated pupils: allow in more light to the retinas

400

After exercise, arterioles in the skin become ____ ; this process is called ____. This results in more blood going through the surface capillaries so more heat is lost from the _____.

  1. Widen 

  2. Vasodiliation 

  3. Skin / surface

400

What is the process of antibiotic resistance an example of?

Natural selection

400

What is the difference between an antigen and an antibody ?

An antibody is a protein made by lymphocytes which is complementary to an antigen. While an antigen is a molecule that the immune system recognizes as foreign (usually found on the surface of a pathogen). 

500

State the three types of neurons and explain their function

Sensory neurones carry impulses from sense organs to the CNS (brain or spinal cord)

Relay neurones are found inside the CNS and connect sensory and motor neurones

Motor neurones carry impulses from the CNS to effectors (muscles or glands)

500

Identify endocrine glands C-F on the diagram and describe uses of the hormones they produce.


C: Adrenal glands - adrenaline, which is the hormone secreted in ‘fight or flight’ situations and causes heart rate and breathing rate to increase and pupils to dilate

D: pancreas - Insulin, which causes cells in the liver to remove glucose from the blood and store it as glycogen, AND glucagon, which stimulates the breakdown of stored glycogen, releasing more glucose into the blood

E: ovary/ovaries - oestrogen, which controls the development of the reproductive system and the development of secondary sexual characteristics

F: testes/testicles - testosterone, which shares the same functions as oestrogen

500

Complete the diagram

  1. Hair

  2. Sweat gland 

  3. Hair erector muscle 

  4. Receptor

  5. Blood vessels

  6. Sensory neurone

  7. Fatty tissue

500

Explain why overusing antibiotics can lead to bacteria like MRSA becoming more common.

Overusing antibiotics exposes bacteria to the drugs unnecessarily, allowing resistant bacteria to survive and reproduce, while non-resistant bacteria die. This makes antibiotic-resistant infections more common and harder to treat.

500


What is the difference between an antigen and an antibody ?

Organise the following steps into a correct technique for vaccination of a village: (Answer using numbers only.)

  1. Injection of children with a harmless pathogen with a similar antigen

  2. Long-term immunity acquired

  3. Specialised lymphocytes produce antibodies

  4. Less spreading of the pathogen among the population

  5. Memory cells are produced 

1, 3, 5, 2, 4