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IGCSE Biology Extended14.3 HormonesTopic Practice

14.3 Hormones

CAIE IGCSE Biology Extended 14.3 Hormones question practice helps you revise this syllabus point with the course map in view. Use this page to focus on one topic, check the style of questions available, and connect each attempt back to the knowledge area it is testing.

EduNinja keeps Biology practice aligned to CAIE at Extended level, so you can move from topic review into exam-style question bank work without losing the syllabus structure. Start with a small set, mark the weak steps, then return to nearby topic links when a definition, graph, calculation, or explanation needs repair.

Question 1(c)

[Maximum number: 3]

Describe how nervous communication differs from hormonal communication.

Question 2(a)

[Maximum number: 3]

Insulin is a hormone that regulates the concentration of glucose in the blood.

Describe what is meant by the term hormone.

Question 2(c)

[Maximum number: 2]

Insulin is a protein made by cells in the pancreas.
Fig. 2.1 shows how insulin is made in a pancreatic cell.

Fig. 2.1

Fig. 2.1

State the names of two substances, other than insulin, that are secreted by the pancreas. 1
2

Question 3

Question 3(e)

(a)

When a body senses danger, more adrenaline is secreted from the adrenal glands.

Describe two ways in which the hormone adrenaline affects the body in preparation for action.
1
2

[ 2 ]

Question 3(f)

(b)

State one difference between nervous and hormonal control systems.

[ 1 ]

Question 3

Question 3(e)

(a)

When a body senses danger, more adrenaline is secreted from the adrenal glands.

Describe two ways in which the hormone adrenaline affects the body in preparation for action.
1
2

[ 2 ]

Question 3(f)

(b)

State one difference between nervous and hormonal control systems.

[ 1 ]

Question 3

[Maximum number: 2]

Bacteria are used in many biotechnological processes.

Question 3(b)

(a)

Insulin is one of many human proteins that are made by genetically engineered bacteria.

Some people cannot produce insulin because their immune system has destroyed the cells that make insulin.

[ 2 ]

Question 3(b)(i)

(i)

State the organ that contains the cells that have been destroyed.

[ 1 ]

Question 3(b)(iii)

(ii)

State the function of insulin in the body.

[ 1 ]

Question 3(b)

[Maximum number: 5]

The pancreas is an organ that has roles in the digestive and hormonal systems of humans.
Fig. 3.1 shows part of the alimentary canal and some of the associated organs.

Fig. 3.1

Fig. 3.1

The pancreas secretes hormones into the blood and enzymes into the pancreatic duct. The enzymes are released into the alimentary canal.

Complete Table 3.1 by stating the hormones and enzymes that are secreted by the pancreas.

Table 3.1

Table 3.1

Question 3

[Maximum number: 6]

Fig. 3.1 shows a section through a kidney.

Fig. 3.1

Fig. 3.1

Question 3(d)

(a)

Testosterone is a steroid hormone that is also taken as a drug to improve sporting performance.

[ 6 ]

Question 3(d)(i)

(i)

Define the term hormone.

[ 3 ]

Question 3(d)(ii)

(ii)

State where testosterone is produced in the body.

[ 1 ]

Question 3(d)(iii)

(iii)

State why testosterone is taken by some people to improve sporting performance.

[ 2 ]

Question 3(c)

[Maximum number: 2]

Fig. 3.1 is a diagram of the junction between two neurones in a healthy person.
Fig. 3.2 is a diagram of the junction between the same two neurones in a person who has Parkinson's disease. This disease affects the nervous system.

Fig. 3.1

Fig. 3.1

Fig. 3.2

Fig. 3.2

Describe two ways nervous control differs from hormonal control.

1
2

Question 3

Question 3(c)

(a)

Scientists investigated the effect of adrenaline on blood glucose concentration in rats.

The rats were put into two groups:
- group A was given an injection of adrenaline
- group B was given an injection that did not contain adrenaline.

The blood glucose concentrations of the rats in both groups were monitored for three hours after the injections.

The rats did not eat for 12 hours before the investigation or while they were being monitored.
The results are shown in Fig. 3.1.

Fig. 3.1

Fig. 3.1

Key:
- group A (adrenaline)
- - - group B (no adrenaline)

[ 7 ]

Question 3(c)(i)

(i)

Suggest why group B was given an injection that did not contain adrenaline.

[ 2 ]

Question 3(c)(ii)

(ii)

Describe and explain the results shown in Fig. 3.1 for group A.

[ 5 ]

Question 3(e)

(b)

Describe two effects of adrenaline on the body, other than a change in blood glucose concentration.

1
2

[ 2 ]
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