Selina ICSE Solutions for Class 10 Biology

Selina Concise Biology Class 10 ICSE Solutions The Circulatory System

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Selina Concise Biology Class 10 ICSE Solutions The Circulatory System

APlusTopper.com provides step by step solutions for Selina Concise ICSE Solutions for Class 10 Biology Chapter 7 The Circulatory System. You can download the Selina Concise Biology ICSE Solutions for Class 10 with Free PDF download option. Selina Publishers Concise Biology for Class 10 ICSE Solutions all questions are solved and explained by expert teachers as per ICSE board guidelines.

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Selina ICSE Solutions for Class 10 Biology Chapter 7 The Circulatory System

Exercise 1

Solution A.1.
(a) lymphocytes and monocytes

Solution A.2.
(b) phagocytosis

Solution B.1.
(a) Blood platelets and blood coagulation
(b) Neutrophils and phagocytosis
(c) Erythrocytes and transportation of gases
(d) Lymphocytes and Produce antibodies
(e) Bone marrow and destruction of old and weak RBC’s/production of RBCs and WBCs.

Solution B.2.
(a) Red Blood Cells
(b) Blood Platelets

Solution C.1.
Structural Differences between White Blood Cells and Red Blood Cells:

White Blood Cells Red Blood Cells
1. White blood cells are amoeboid. Red blood cells are minute biconcave disc-like structures.
2. They are nucleated cells. They anucleated cells.
3. Haemoglobin is absent in red blood cells. Haemoglobin is present in red blood cells.

Solution C.2.
During blood transfusion it is necessary to know the blood groups before transfusion because it is important that the blood groups of the donor and the recipient are compatible. In case of an incompatible blood transfusion, the recipient develops antibodies that attack the antigens present on the RBCs of the donor causing the blood cells to clump together which may result in death.

Solution C.3.
(a) Antibodies are produced by lymphocytes in response to the entry of pathogens in the blood stream.
Antibiotics are the medicines extracted from some bacteria and fungi. Antibiotics destroy or inhibit the growth of pathogens.

(b) RBC: RBC is enucleated, biconcave, disc-like structure, flat in the centre while thick and rounded at the periphery.
WBC: WBC is nucleated and amoeboid in shape.

(c) Serum: The plasma from which the protein fibrinogen has been removed is called serum.
Vaccine: Vaccine is killed or living weakened germs which are introduced in the body to stimulate the production of antibodies against pathogens for a particular disease.

Solution C.4.
Heparin

Solution D.1.
The functions of blood plasma are:

  • Transports of digested food from the alimentary canal to tissues.
  • Transports excretory materials from tissues to excretory organs.
  • Distributes hormones from the glands to their target site.
  • Distributes heat in the body to maintain the body temperature.

Solution D.2.
Blood clotting or coagulation occurs in a series of the following steps:

  • The injured tissue cells and the platelets disintegrate at the site of wound to release thromboplastin.
  • The thromboplastin with the help of calcium ions converts inactive prothrombin into active thrombin.
  • Thrombin in the presence of calcium ions converts soluble fibrinogen into insoluble fibrin which forms a mesh or network at the site of wound.
  • The blood cells trapped in this network shrink and squeeze out the plasma to leave behind a solid mass known as the clot.
    Selina Concise Biology Class 10 ICSE Solutions The Circulatory System image -1

Solution D.3.

(a) Rh factor – It is an inherited antigen often found on the blood cells. Some individuals have these antigens and are thus Rh positive (Rh+) while others who do not have this antigen are Rh negative (Rh-).

(b) Universal donor – The person with blood group O is a universal donor as this type of blood can be given to persons with any blood group i.e. O, A, B, AB.

(c) Diapedesis – It is the squeezing of leucocytes through the wall of capillaries into the tissues.

Solution D.4.
Blood clotting is not dependent on the exposure of blood to air. In fact, clotting can be caused by the movement of blood over a rough surface such as on cholesterol deposit inside of a blood vessel of the skin.

Solution D.5.
The functions of the blood are:

  1. Transport of digested food from the alimentary canal to tissues. These substances are simple sugars like glucose, amino acids, vitamins, mineral salts, etc.
  2. Transport of oxygen in the form of an unstable compound ‘oxyhaemoglobin’ from the lungs to the tissues.
  3. Transport of carbon dioxide from the tissues to the lungs.
  4. Transport of excretory materials from the tissues to the liver, kidney or the skin for elimination.
  5. Distribution of hormones from glands to the target sites.
  6. Distribution of heat to keep the body temperature uniform.
    (Any five)

Solution E.1.
(a)

  1. Red Blood Cell (RBC),
  2. White Blood Cell (WBC),
  3. Blood Platelet
  4. Blood Plasma.

(b) The red blood cells are minute biconcave disc-like structures whereas the white blood cells are amoeboid.

(c) Function of part 1 (RBC): Transport of respiratory gases to the tissues and from the tissues, transport of nutrients from the alimentary canal to the tissues.
Function of part 2 (WBC): WBCs play major role in defense mechanism and immunity of the body.
Function of part 3 (Blood Platelet): Blood platelets are the initiator of blood clotting.

(d) The average life span of a red blood cell (RBC) is about 120 days.

(e) Thromboplastin

Exercise 2

Solution A.1.
(d) Heart itself

Solution A.2.
(c) artery

Solution A.3.
(a) tricuspid valve

Solution A.4.
(b) renal artery

Solution A.5.
(b) inadequate supply of oxygen to the heart muscle

Solution A.6.
(d) destroy pathogens

Solution A.7.
(a) closure of tricuspid and bicuspid valves
(b) closure of aortic and pulmonary valves
(c) rushing of blood through valves producing turbulence

Solution B.1.
The average values of blood pressure in a normal adult human are 100-140 mm for systolic pressure and 60-80 mm for diastolic pressure.

Solution B.2.
Yes, the heart beats approximately 1, 03,680 times in a day.

Solution B.3.
(a) Hepatic portal vein
(b) Blood Capillaries
(c) Pulmonary artery
(d) White blood cells
(e) Venules
(f) Portal vein
(g) Atrial systole
(h) Tricuspid valve
(i) Atrial systole
(j) Pericardial fluid

Solution B.4.

(a) Blood platelets are involved in blood clotting or coagulation. Blood platelets integrate at the site of injury to release thromboplastin which initiates the process of blood clotting.

(b) Neutrophils perform phagocytosis i.e. they engulf pathogens that enter the blood stream and destroy them.

(c) Erythrocytes transport oxygen from the lungs to the tissues in the form of an unstable compound oxyhaemoglobin and transport carbon dioxide from the tissues to the lungs.

(d) Lymphocytes produce antibodies against pathogens which enter the blood stream. In some cases they also perform phagocytosis.

(e) Bone marrow is involved in formation of RBCS and WBCs. It is also involved in the destruction of old and weak RBCs.

Solution B.5.
(a) The blood vessel that begins and ends in capillaries is the hepatic portal vein.
(b) A blood vessel which has small lumen and thick wall is artery.
(c) The valve which prevents the back flow of blood in the veins and lymph vessels is semilunar valve.

Solution B.6.
(a) Lubb: Atrio-ventricular valve:: Dup: Semilunar valves
(b) Coronary artery: Heart::Hepatic artery: Liver

Solution B.7.
A matured mammalian erythrocyte lacks a nucleus and mitochondria. The lack of a nucleus increases the surface area-volume ratio of RBCs, thus increasing the area for oxygen absorption. Also, the lack of a nucleus reduces the size of the cell, making it easy to flow through the blood vessels and more cells can be accommodated in a small area.
The lack of mitochondria implies that the cell does not use any oxygen absorbed for respiration, thus increasing the efficiency of the cell to transport oxygen as all the oxygen absorbed is transported without any loss.

Solution C.1.
Blood flows twice in the heart before it completes one full round. The full round thus includes pulmonary and systemic circulation. In pulmonary circulation, blood enters the lungs through pulmonary arteries. Pulmonary veins collect the blood from the lungs and carry it back to the left atrium.
In systemic circulation, blood from the left ventricle enters the aorta through which the blood is sent to the body parts. From the body parts blood is collected by veins and sent back to the heart. Therefore, the blood circulation in the human body is called double circulation.

Solution C.2.
The first sound LUBB is produced when the atrio-ventricular valves i.e. tricuspid and bicuspid valves close at the start of ventricular systole.
The second sound DUP is produced at the beginning of ventricular diastole, when the pulmonary and aortic semilunar valves close.

Solution C.3.
People have a common belief that the heart is located on the left side of the chest because the narrow end of the roughly triangular heart is pointed to the left side and during its working the contraction of the heart is more powerful on the left side which can be felt.

Solution C.4.
(a)

Erythrocytes Leucocytes
They function in the transport of oxygen throughout the body and in the removal of carbon dioxide from the body. They help in the defense of the body against disease-causing pathogens.

(b) An artery carries blood away from the heart whereas a vein brings blood towards the heart.
(c) An artery generally contains oxygenated blood whereas a vein generally carries deoxygenated blood.
(d) Tricuspid valve is located between the right atrium and right ventricle of the heart whereas a bicuspid valve is located between the left atrium and left ventricle of the heart.

Solution C.5.

Column A Column B
SA node Pacemaker
Defective hemoglobin in RBC Sickle cell anemia
Muscle fibres located in the heart Purkinje fibres
The liquid squeezed out of blood during clotting Serum
Never tires, keep on contracting and relaxing Cardiac muscles
Cardiac cycle 0.85 sec
Liquid part of the blood without corpuscles Plasma

Solution C.6.

Substance From To
Oxygen Lungs Whole body
Carbon dioxide Whole body Lungs
Urea Whole body Kidneys
Digested carbohydrates Intestines Whole body
Hormones Endocrine glands Target organs

Solution D.1.
(a) Endothelium– It is the innermost layer of the muscular wall of an artery or a vein which faces the lumen.
(b) Lymph nodes– The structures from which fresh lymph channels arise which pour the lymph into major anterior veins.
(c) Venule– The smallest common blood vessel formed by the union of capillaries.
(d) Diastole– The relaxation of muscles of ventricles or atria.

Solution D.2.

Artery Vein
An artery is a vessel which carries blood away from the heart towards any organ. A vein is a vessel which conveys the blood away from an organ towards the heart.
Artery has thick muscular walls. Vein has thin muscular walls.
It has a narrow lumen. It has a broad lumen.
There are no valves. Thin pocket-shaped valves are present in the veins.
Arteries progressively decrease in size and branch to form arterioles. Arterioles further breaks up to form capillaries. Capillaries unite to form branches called Venules. Venules further unite to form veins.

Solution D.3.
Tonsils: Tonsils are lymph glands located on the sides of the neck. They tend to localize the infection and prevent it from spreading it in the body as a whole.
Spleen: The spleen is a large lymphatic organ. The spleen acts as a blood reservoir in case of emergency such as haemorrhage, stress or poisoning. It produces lymphocytes and destroys worn out RBCs.

Solution D.4.
(a) The left ventricle pumps blood to the farthest points in the body such as the feet, the toes and the brain against the gravity while the right ventricle pumps the blood only up to the lungs. Therefore, the left ventricle has thicker walls than the right ventricle.
(b) The right ventricle pumps blood to the lungs for oxygenation whereas the right auricle receives the blood from vena cavae and passes it to the right ventricle. Therefore, walls of the right ventricle are thicker than those of the right auricle.

Solution D.5.
(a) The left ventricle pumps blood to the farthest points in the body such as the feet, the toes and the brain against the gravity. Thus, it requires greater force to push the blood. In order to with stand with the force applied the walls of the left ventricle are thicker than the walls of all the chambers.

(b) The blood from stomach and intestines enters the liver via hepatic portal vein because the liver monitors all the substances that have to be circulated in body. The excess nutrients such as glucose, fats are stores in the liver. Excess amino acids are broken down by the process deamination. Toxic substances are detoxified.

(c) During blood transfusion it is important that the blood groups of the donor and the recipient are compatible. In case of an incompatible blood transfusion, the recipient develops antibodies that attack the antigens present on the RBCs of the donor causing the blood cells to clump together which may result in death. The examination of Rh factor is also necessary for the blood transfusion. Therefore, the blood groups of both the donor and recipient must be known before transfusing blood.

(d) Veins carry the blood from the body part towards the heart while the arteries carry the blood from the heart. Veins carry the blood against the force of gravity. Therefore, only the veins and not the arteries are provided with valves.

(e) Atrial wall is less muscular than the ventricular wall because the major function of atria is to receive blood from the body and pump in into very next ventricles. While the ventricles pump the blood out of the heart. Right ventricle to the lungs and the left ventricle to all the body parts.

(f) Arteries are responsible to carry oxygenated blood from the heart to the tissues. The blood flows in the artery under high pressure and in spurts. If arteries are located superficially then there is a high possibility of their damage which could lead to a lot of blood loss. To prevent this damage and blood loss, the arteries are deep seated in the body.

Solution E.1.
(a) A is artery, B is vein.
(b)

  1. Endothelium of the artery,
  2. Middle layer of smooth muscles and elastic fibres of the artery,
  3. External layer of connective tissue of the artery,
  4. Endothelium of the vein,
  5. Middle layer of smooth muscles and elastic fibres of the vein,
  6. External layer of connective tissue of the vein.

(c) An artery has thick muscular walls and a narrow lumen. It carries blood away from the heart towards any organ.
A vein on the other hand has thin muscular walls and a wider lumen. It carries blood away from an organ towards the heart.

Solution E.2.
(a) The structure 3 represents the heart. It forms the centre of double circulation and is located between the liver and the head (as per the diagram). Also the blood circulation (indicated by 1) begins from heart to lungs.
(b)

Aorta 5
Hepatic portal vein 7
Pulmonary artery 1
Superior vena cava 9
Renal vein 8
Stomach 10
Dorsal aorta 11

Solution E.3.
(a)

1 Systemic Circulation
2 Vena Cava
3 Aorta
4 Right Ventricle
5 Left Atrium
6 Pulmonary Artery
7 Pulmonary Vein
8 Pulmonary Circulation

(b) Blood flows twice in the heart before it completes one full round. The full round thus includes pulmonary and systemic circulation. For this reason, the blood circulation in the human body is called double circulation.
(c) The relaxation of muscles of ventricles or auricles is known as diastole.

Solution E.4.
(a) Tissue Fluid
(b) Red blood cells
(c) Lymph
(d) The lymph supplies nutrition and oxygen to those parts where blood cannot reach. The lymph drains away excess tissue fluids and metabolites and returns proteins to the blood from tissue spaces.

Solution E.5.
(a) Hepatic portal vein (4)
(b) Hepatic portal vein (4)

Solution E.6.
(a) A- Vein, B-Artery, C-Capillary
(b)

  1. External layer made of connective tissue
  2. Lumen
  3. Middle layer of smooth muscles and elastic fibres
  4. Endothelium

(c) An artery has thick muscular walls and a narrow lumen. It does not have any valve.
vein on the other hand has thin muscular walls and a wider lumen. It has valves to prevent back flow of blood.

(d) A (Vein)- deoxygenated blood, B (Artery)- oxygenated blood

(e) At the capillary level the actual exchange of gases takes place.

Solution E.7.
(a) Atrial Diastole and Ventricular Systole

(b) Ventricular muscles are contracting during this phase because the valves between the two ventricles and pulmonary artery and aorta are open while the atrio-ventricular valves are closed.

(c)

1 Pulmonary Artery
2 Aorta
3 Pulmonary Vein
4 Left Atrium
5 Bicuspid Valve
6 Right Ventricle

(d) Part 1 (Pulmonary artery) – Deoxygenated blood
Part 2 (Aorta) – Oxygenated Blood

(e) Two i.e., bicuspid and tricuspid valves are closed in this phase.

Solution E.8.
a.

  1. Arteriole
  2. Artery
  3. Venule
  4. Capillaries
  5. Vein

b. Such an arrangement can be observed in the lungs.

Solution E.9.
a. 1 – Red blood cell
b. Diapedesis
c.

RBC WBC
They lack a nucleus. They have a nucleus.
They are biconcave and disc-shaped. They are spherical and have different sizes.

d. The process which occurs in B and C is phagocytosis. In this process, the WBCs engulf the foreign particles and destroy them, thus preventing the occurrence of disease.

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Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes)

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Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes)

APlusTopper.com provides step by step solutions for Selina Concise ICSE Solutions for Class 10 Biology Chapter 8 The Excretory System (Elimination of Body Wastes). You can download the Selina Concise Biology ICSE Solutions for Class 10 with Free PDF download option. Selina Publishers Concise Biology for Class 10 ICSE Solutions all questions are solved and explained by expert teachers as per ICSE board guidelines.

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Selina ICSE Solutions for Class 10 Biology Chapter 8 The Excretory System (Elimination of Body Wastes)

Exercise 1

Solution A.1.
(c) Removal of nitrogenous wastes

Solution A.2.
(a) Proximal convoluted tubule

Solution A.3.
(c) Sweating

Solution A.4.
Liver

Solution B.1.
(a) Liver
(b) Cortex
(c) Glomerulus
(d) Collecting duct
(e) Renal artery (Renal vein has urea but renal artery has higher concentration of urea as compared to renal vein).

Solution B.2.
(a) Afferent arteriole, glomerulus, efferent arteriole, capillary network, renal vein
(b) Renal artery, kidney, ureter, urinary bladder, urethra

Solution B.3.
(a) Ultrafiltration
(b) Excretion
(c) Osmoregulation
(d) Excretion

Solution C.1.
(a) Glomerulus is involved in the process of ultrafiltration.The liquid part of the blood which is plasma including urea, salts, glucose filters out from the glomerulus into the renal tubule.
(b) Henle’s loop is involved in reabsorption of water and sodium ions.
(c) Ureter carries urine to the urinary bladder by ureteral peristalsis.
(d) Renal artery supplied blood to the kidney.
(e) Urethra is involved in the process of micturition i.e. expelling urine out of the body.

Solution C.2.
Excretion helps in removing toxic wastes from our body and it also plays an important role osmoregulation i.e. the maintenance of the homeostasis of the body.
Carbon dioxide, water, nitrogenous compounds such as urea, uric acid and excess salts are some common excretory products.

Solution C.3.
A uriniferous tubule also known as the kidney tubule is the structural and functional unit of the kidney.
It takes in impure blood from the renal artery and removes wastes in the form of urine. It also provides a larger surface area for reabsorption of salts and water.

Solution C.4.
Maintaining a normal osmotic concentration in the body means regulating the percentage of water and salts. If this regulation mechanism fails we either end up losing vital salts and water or may accumulate unwanted salts and excess water in our body.

Solution C.5.
If one kidney is donated to a needy patient, the other kidney alone is sufficient for removing wastes or excretion. Thus, the donor can live a normal life.

Solution C.6.
During summer, a considerable part of water is lost through perspiration so the kidneys have to reabsorb more water from the urine. This makes the urine thicker in summer than in winters.

Solution C.7.

(a) Bowman’s capsule is a thin walled cup containing the glomerulus. This Bowman’s capsule along with the glomerulus is known as malpighian capsule.

(b) The renal cortex is the outer darker region of the kidney whereas the renal medulla is the inner lighter region of the kidney.

(c) Renal pelvis is the expanded front end of the ureter in the kidney whereas the renal papilla is the apex of the renal pyramid which projects into the pelvis.

(d) Urea is the chief excretory product which is excreted in the form of urine whereas urine is the filtrate left after reabsorption and tubular secretion which contains 95% water and 5% solid wastes.

(e) Excretion is the process of removal of chemical wastes especially nitrogenous wastes from the body.
Catabolism on the other hand is the set of metabolic pathways which break down molecules into smaller units and release energy.

Solution C.8.
Urea, creatinine, uric acid

Solution C.9.

Column I Column II 
(a)   Bowman’s Capsule Glomerulus
(b)   Contains more CO2 and less urea Renal Vein
(c)    Anti-diuretic hormone Regulates amount of water excreted
(d)   Contains more urea Renal artery

Solution C.10.
In a nephron, the blood flows through the glomerulus under great pressure. The reason for this great pressure is that the efferent (outgoing) arteriole is narrower than the afferent arteriole (incoming). This high pressure causes the liquid part of the blood to filter out from the glomerulusinto the renal capsule.

Solution D.1.

(a) Ultrafiltration – The process of the filtration of blood in the glomerulus under great pressure during which the liquid part of the blood i.e. plasma along with urea, glucose, amino acids and other substances enter the renal tubule.

(b) Micturition – The process of expelling urine out of the body through urethra by opening the sphincter muscles passing of urine involving relaxation of sphincter muscles between the urinary bladder and urethra.

(c) Renal pelvis – Renal pelvis is the expanded front end of the ureters into the kidney.

(d) Urea – A nitrogenous waste produced primarily in the liver due to the break down dead protein remains and extra amino acids.

(e) Osmoregulation – It is a process of maintaining the blood composition of the body i.e. the normal osmotic concentration of water and salts in the body.

Solution D.2.

Ultrafiltration – Ultrafiltration involves filtration of the blood which takes place in the glomerulus. The blood containing urea from the afferent arteriole enters the glomerulus under high pressure. The high pressure is created because the efferent arteriole is narrower than the afferent arteriole. The high pressure causes the liquid part of the blood to filter out from the glomerulus into the renal tubule. This filtrate is known as ‘glomerular filtrate’.
Glomerular filtrate consists of water, urea, salts, glucose and other plasma solutes. Blood corpuscles, proteins and other large molecules remain behind in the glomerulus. Therefore the blood which is carried away by the efferent arteriole is relatively thick.

Selective absorption – The Glomerular filtrate entering the renal tubule contains a lot of usable materials such as glucose and sodium. As this filtrate passes down the renal tubule, a lot of water along with these usable materials is reabsorbed. Such reabsorption is called ‘selective absorption’. The reabsorption occurs only to the extent that the normal concentration of the blood is undisturbed.

Solution D.3.
Dialysis involves the use of artificial kidney or a dialysis machine. The patient’s blood is from the radial artery is led through the machine where excess salts and urea is removed. The purified blood is then returned to a vein in the same arm.
Dialysis is carried out in case of failure of both the kidneys. In case there is a permanent damage, then the dialysis is to be repeated for about 12 hours twice a week.

Solution E.1.
(a) The image shown can be left or right kidney. As the right kidney is slightly lower than the left one, so we need to have the images of both the kidneys for comparison.
(b) It is a longitudinal section of the kidney.
(c) 1-renal artery, 2-renal vein, 3-ureter, 4-cortex, 5-pelvis
(d) (i) 4/cortex
(ii) medulla
(iii) 5/pelvis

Solution E.2.
(a) Excretory system and Circulatory system.
(b) 1-kidney, 2-renal artery, 3-ureter, 4-urinary bladder, 5-urethera
(c) Nephron
(d) Urea and ammonia
(e) Ultrafiltration and selective reabsorption

Solution E.3.
(a) 4/Glomerulus
(b) 2/Efferent arteriole
(c) 1/ Afferent arteriole from renal artery
(d) 7/Collecting tubule
(e) 5/ Proximal convoluted tubule with blood capillaries

Solution E.4.
(a) The process of removal of chemical wastes especially nitrogenous waste from the body is known as excretion.
(b) Nephrons
(c) As the cortex region contains numerous nephrons or kidney tubules, therefore, it shows a dotted appearance.
(d) Kidneys help in removing wastes or excretion and osmoregulation.
(e) The blood vessel ‘B’ is renal artery and the blood vessel ‘A’ is renal vein.

So the blood vessel ‘B’ contains oxygenated blood with high concentration of urea and glucose whereas the blood vessel ‘A’ contains deoxygenated blood with low concentration of urea and glucose as compared to renal artery.

Solution E.5.
a. The structure is a Bowman’s capsule, which is part of the nephron. The Bowman’s capsule is found in the cortex of the kidney.

b.

  1. Afferent arteriole
  2. Glomerulus
  3. Bowman’s capsule
  4. Efferent arteriole

c. Urine formation occurs in two steps – ultrafiltration and reabsorption.

d. The process occurring in 2 and 3 is known as ultrafiltration.
In the glomerulus, the blood flows under high pressure because of the narrow lumen of the capillary network of the glomerulus. This forces most of the components (both waste and useable materials) of the blood out of the capillaries. This process of the filtration of blood under high pressure in the Bowman’s capsule is known as ultrafiltration.

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Selina Concise Biology Class 10 ICSE Solutions The Nervous System

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Selina Concise Biology Class 10 ICSE Solutions The Nervous System

APlusTopper.com provides step by step solutions for Selina Concise ICSE Solutions for Class 10 Biology Chapter 9 The Nervous System. You can download the Selina Concise Biology ICSE Solutions for Class 10 with Free PDF download option. Selina Publishers Concise Biology for Class 10 ICSE Solutions all questions are solved and explained by expert teachers as per ICSE board guidelines.

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Selina ICSE Solutions for Class 10 Biology Chapter 9 The Nervous System

Exercise 1

Solution A.1.
(b) neurolemma

Solution A.2.
(d) Pons – consciousness

Solution A.3.
(b) Contains both sensory and motor fibres

Solution B.1.
(a) Cerebrospinal fluid
(b) Synapse
(c) Cerebrum
(d) Hypothalamus

Solution B.2.
(a) Stimulus: Receptor:: Impulse: Effectors
(b) Cerebrum: Diencephalon:: Cerebellum: Medulla oblongata
(c) Receptor: Sensory nerve:: Motor nerve: Effector

Solution B.3.
(a) Sensory
(b) Maintaining posture and equilibrium
(c) Spinal cord

Solution C.1.
(a) Corpus Callosum – It is located located in the forebrain. It connects two cerebral hemispheres and transfers information from one hemisphere to other.
(b) Central canal – It is located in centre of the spinal cord. It is in continuation with the cavities of the brain. It is filled with cerebrospinal fluid and acts as shock proof cushion. In addition, it also helps in exchange of materials with neurons.

Solution C.2.
(a) False
(b) False
(c) True
(d) True

Solution C.3.
(a)

Cerebrum Cerebellum
The cerebrum controls all voluntary actions. It enables us to think, reason, plan and memorize. The cerebellum on the other hand maintains balance of the body and coordinates muscular activity.

(b)

Sympathetic Nervous System Parasympathetic Nervous System
Sympathetic nervous system prepares the body for violent action against the abnormal condition. Parasympathetic nervous system is concerned with re-establishing normal conditions after the violent act is over.

(c)

Sensory Nerve Motor Nerve
Sensory nerve brings impulses from the receptors i.e. sense organs to the brain or spinal cord.

Motor nerve carries impulse from the brain or spinal cord to effector organs such as muscles or glands.

(d)

Medulla Oblongata Cerebellum
Medulla oblongata controls the  activities of internal organs and many other involuntary actions The cerebellum on the other hand maintains balance of the body and coordinates muscular activity.

(e)

Cerebrum Spinal Cord
The grey matter containing cytons lies in the cortex (outer region) while the white matter containing axons lies in the medullary region (inner region). The grey matter containing cytons lies in the medullary region i.e. inner side while the white matter containing axons lies in the cortex i.e. the outer region.

Solution C.4.
(a) Cerebellum maintains balance of the body and coordinates muscular activity.
(b) Myelin sheath acts like an insulation and prevents mixing of impulses in the adjacent axons.

Solution C.5.
(a) Synapse: It is a gap between the axon terminal of one neuron and the dendrites of the adjacent neuron. It transmits nerve impulse from one neuron to another neuron.
(b) Association Neuron: It interconnects sensory and motor neurons.
(c) Medullary sheath: It provides insulation and prevents mixing of impulses in the adjacent axons.
(d) Medulla Oblongata: It controls activities of internal organs such as peristalsis, breathing and many other involuntary actions.
(e) Cerebellum: It maintains balance of the body and coordinates muscular activity.
(f) Cerebrospinal Fluid: It acts like a cushion and protects the brain from shocks.

Solution C.6.
(a) Sensory, motor and mixed nerves
(b) Somatic and autonomic nervous system
(c) Natural and conditioned reflexes
(d) Sensory, motor and association neurons
(e) Gray and white matter

Solution C.7.
(a) Stimulus — receptor — sensory neuron — central nervous system — motor neuron — effector — response
(b) Resting — depolarization — repolarization
(c) Dendrites — Dendron — perikaryon — nucleus — axon — axon endings
(d) Cerebrum — diencephalon — mid-brain — cerebellum — pons — medulla oblongata

Solution D.1.
(a) Reflex action  is an autonomic, quick and involuntary action in the body brought about by a stimulus.
(b)

Example Type of Reflex
(i) Sneezing Simple
(ii) Blushing Simple
(iii) Contraction of eye pupil Simple
(iv) Lifting up a book Conditioned
(v) Knitting without looking Conditioned
(vi)  Sudden application of brakes of the cycle on sighting an obstacle in front Conditioned

Solution D.2.
The advantages of having a nervous system are as follows:

  1. Keeps us informed about the outside world through sense organs.
  2. Enables us to remember, think and reason out.
  3. Controls and harmonizes all voluntary muscular activities such as running, holding, writing
  4. Regulates involuntary activities such as breathing, beating of the heart without our thinking about them.

Solution D.3.
The brain and the spinal cord lie in the skull and the vertebral column respectively. They have an important role to play because all bodily activities are controlled by them. A stimulus from any part of the body is always carried to the brain or spinal cord for the correct response. A response to a stimulus is also generated in the central nervous system. Therefore, the brain and the spinal cord are called the central nervous system.

Solution D.4.
Reflex actions are involuntary actions which occur unknowingly. Voluntary actions on the other hand are performed consciously.
Picking up an apple and eating it is an example of voluntary action whereas withdrawal of hand on touching a hot object is an example of reflex action.

Reflex Action Voluntary Action
Reflex actions are involuntary actions which occur unknowingly. Voluntary actions on the other hand are performed consciously.
Commands originate in the spinal cord, autonomic nervous system and a few in the brain as well. Commands originate in the brain.

Solution D.5.
Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes) image - 1

Solution D.6.

Organ

 Sympathetic System Parasympathetic System
e.g. Lungs Dilates bronchi and bronchioles

Constricts bronchi and bronchioles

1. Heart

 Accelerates heartbeat Retards heartbeat
2. Pupil Dilates

Constricts

3. Salivary gland

 Inhibits the secretion of saliva causing the drying of the mouth

Stimulates the release of saliva

Solution E.1.
Salivation is an example of conditioned reflex that develops due to experience or learning. Saliva starts pouring when you chew or eat food. Therefore, this reflex will occur not just on the sight or smell of food. The brain actually needs to remember the taste of food. Boy B started salivating because he must have tasted that food prior unlike boy A.

Solution E.2.

Situation

 Organ/body part Change/action Part of autonomic nervous system involved
1. You have entered a dark room Eye Pupil dilates

Sympathetic
2. Your body is consuming lot of glucose while running a race Liver Glycogen is converted into glucose in liver Sympathetic
3. You are chewing a tasty food Salivary gland Salivation increases

Parasympathetic
4. You are running a race Adrenal gland Release of adrenaline and noradrenaline increases Sympathetic
5. You are retiring to bed for sleep Heart Heart rate slows down

Parasympathetic
6. You are shivering in intense cold Body hairs Hair raised

Sympathetic

Solution E.3.
Fill in the following information in the diagram.

  1. Central Nervous System
  2. Autonomic
  3. 12
  4. spinal
  5. 31
  6. dilates
  7. constricts
  8. liver

Exercise 2

Solution A.1.
(b) Cornea

Solution A.2.
(b) Cochlea

Solution A.3.
(c) Eustachian tube, tympanum and utriculus

Solution A.4.
(a) Retina

Solution B.1.
(a) Rhodopsin
(b) Eustachian tube
(c) Hammer
(d) Dura mater
(e) Eustachian tube
(f) Cornea
(g) Auditory nerves
(h) Rods and cones
(i) Hypermetropia

Solution B.2.
(a) Cones: Iodopsin:: rods: rhodopsin
(b) Sound: ear drum:: dynamic balance: semi-circular canals

Solution B.3.

Column I Column II
i. The blind spot (h) no sensory cells
ii. The yellow spot (g) centre of the retina
iii. Ciliary muscle (b) Shape of the lens
iv. Iris (e) free of rod cells, (a) colour of the eye
v. Meninges (c) Protective covering of the brain

Solution C.1.
(a) Myopia results when the eye ball is lengthened from front to back or the lens is too curved.
Hyperopia results from either too shortening of the eyeball from front to back or when the lens is too flat.
(b) Rods are sensitive to dim light but do not respond to colour.
cones are sensitive to bright light and are responsible for colour vision.
(c) cochlea is responsible for hearing; it can perceive the senses of hearing.
Semicircular canals are responsible for perceiving the senses to maintain the body balance.
(d) Rod cells contain rhodopsin whereas the cone cells contain iodopsin.
(e) Dynamic balance is when the body is in motion whereas static balance is positional balance with respect to gravity.

Solution C.2.
(a) False
Correct statement: Deafness is caused due to rupturing of the eardrum.
(b) False
Correct statement: Semicircular canals are concerned with dynamic balance.

Solution C.3.
(a) Fovea centralis is located at the back of the eye almost at the centre of the eyeball. It is the region of the brightest vision and also of the colour vision.
(b) Organ of corti is located in the inner ear. It contains sensory cells which process hearing.

Solution C.4.
(a) True
(b) False/ Ciliary muscles regulate the size of the lens.
(c) True
(d) False/The auditory nerve responsible for sound as well as for the body balance.
(e) True
(f) False/ flavour is a combination of taste and smell.
(g) False/ short-sightedness is myopia and hyperopia is long-sightedness.
(h) True

Solution C.5.
(a) Auditory canal, tympanum, ear ossicles, oval window, cochlea
(b) Conjunctiva, cornea, lens, retina, optic nerve

Solution C.6.
(a) Organ of Corti and hearing
(b) Olfactory nerve and smell
(c) Retina and vision
(d) Taste bud and taste

Solution C.7.
(a) Lacrimal gland is a tear gland located at the upper sideward portion of the eye orbit. Its secreation lubricates the surface of the eye, washes aways the dust particles and kills germs
(b) Yellow spot is the region of brightest vision and contains maximum sensory cells whereas a blind spot contains no sensory cells and this is the point of no vision.
(c) Presbyopia is an age-old eye defect. In this condition, the lens loses flexibility resulting in far-sightedness.
Cataract is also very common in old people, the cornea becomes opaque and the vision is cut down even to blindness.
(d) The process of focusing the eye at different distances is called the power of accommodation.
(e) The image formed on the retina is inverted and real.

Solution C.8.
An optical illusion is the life-like continuous movement on the screen. Television is an example of optical illusion, where the scanning beam of a picture frame of the TV camera moves so rapidly on the viewing screen of the TV set that our eyes cannot keep pace with it.

Solution C.9.
(a) Oval window is located in the middle ear. It helps in setting the fluid in the cochlear canals into vibration.
(b) Cochlea is located in the inner ear. It helps in transmitting impulses to the brain via the auditory nerve.
(c) Semicircular canals are located in the inner ear. These help in maintaining the dynamic equilibrium of the body.
(d) Utriculus is located in the inner ear. It joins the semi-circular canals to cochlea. It also helps in maintaining static balance of the body.

Solution C.10.
Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes) image - 2

Solution C.11.

Structure

 Function
Yellow Spot

Region of the brightest vision

Auditory nerve

 Transfers impulse from inner ear to brain
Ciliary muscle

Helps to change the focal length of the eye lens

Spinal cord

 Conducts impulses
Oval window

Sets fluid in cochlear canal into vibration

Semicircular canals

Dynamic equilibrium

Solution D.1.
While reading a book, the lens is more convex or rounded due to contraction of ciliary muscles because the book is usually read from a short distance. When we raise our head and look at a distant object, the ciliary muscles relax to build the tension on the suspensory ligament so that they can stretch the lens. This change in the curvature of the lens makes us focus on distant object.
Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes) image - 3

Solution D.2.
The brain sees the vivid picture of the dream through the eyes. Our eyes have actually never seen the vivid picture. This is an example of optical illusion. The area of dream is controlled by the cerebrum of the central nervous system. So sometime we can remember the vivid picture seen in the dream.

Solution D.3.
If we look at a bright object and then close our eyes, the sensation of light persists for a short period. This is known as persistence image or the after image. It lasts for one-tenth of a second. Therefore by closing the eyes and gently pressing them with your palms, you see some specs of brilliant light.

Solution D.4.
Adaptation is the ability to adjust vision in bright and dark areas. When we enter a dark room from bright light, the rhodopsin pigment broken down in bright light is regenerated. It dilates the pupil and allows more light to enter the eyes. This is called dark adaptation. On the other hand, if we enter bright area from a dark room, the rhodopsin pigment is bleached. This constricts the pupil and reduces the light entering the eyes. This is called ‘light adaptation

Accommodation is the process of focusing the eye at different distances. This is mainly brought about by a change in the curvature of the lens. When the ciliary muscles contract, the lens becomes thicker and we are able to focus a nearby object. On the other hand when the ciliary muscles relax, the lens remains stretched i.e. the normal condition and we are able to focus on distant object.

Solution D.5.
Our eyes are designed to focus at a great variety of distances. To focus constantly at a short distance can make the lens focusing muscles fatigued. Therefore, we do not enjoy watching a movie from a very short distance from the screen in cinema hall.

Solution D.6.

Defect of vision

 Cause Corrective measure
Myopia Lengthening of eye ball from front to back or the lens is too curved.

Using suitable concave lens

Hyperopia

 Shortening of eye ball from front to back or the lens is too flat. Using suitable convex lens
Astigmatism Uneven curvature of the cornea

Using suitable cylindrical lenses

Presbyopia

 Loss of flexibility of lens Using suitable convex lens
Cataract Lens turning opaque

Surgery or use of convex lens or implantation of plastic lens.

Colour blindness

 Genetic defect No control measure
Squint Formation of cross-eye

Surgery and suitable exercise

Solution D.7.
The three ear ossicles are: Malleus (hammer), Incus (anvil) and Stapes (stirr up).
The last ear ossicle, stapes, vibrates and transmits the vibration to the oval window.
The role of other two ear ossicles is to magnify the vibration of stapes as a result of their lever like action.

Solution D.8.
The process of focusing the eye at different distances is called the power of accommodation. The ciliary muscles are responsible for the power of accommodation.

Solution E.1.
a. The ability of the eye to focus sharply on things which are near to the eye as well as far off is known as the power of accommodation.
b. Shape of the eye:
Near vision – flattened
Distant – rounded or more convex
c. Ciliary muscles and suspensory ligament
d. In the dark: Cells – rod cells, Pigment – rhodopsin
In the light: Cells – cone cells, Pigment – iodopsin

Solution E.2.
a. The middle ear or membranous labyrinth has two structures inside it, the cochlea and the semi-circular canals.
b. Malleus, incus and stapes
c. Static balance – Utriculus and sacculus (inner ear)
Hearing – Internal ear
Dynamic balance – Semi-circular canals (inner ear)
d. Collectively they are termed as ossicles.

Solution E.3.
(a) Cornea is comparable to the lens cover of the camera.
The iris and pupil act like the aperture of a camera.
(b) The cornea is the eye’s main focusing element. It takes widely diverging rays of light and bends them through the pupil; the rays are further converged by the lens.

Solution E.4.
(a) Myopia
(b) The two possible reasons for myopia are either the eye ball is lengthened from front to back or the lens is too curved.
(c) 1 – vitreous humour, 2 – blind spot, 3-lens, 4-pupil
(d) Concave lens
Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes) image - 4

Solution E.5.
(i) Ear
(ii) m – malleus, i – incus and s – stapes respectively. These are collectively called as ear ossicles.
(iii) Cochlea. The vibrating movements in the hair of the sense cells of cochlea transmit the impulse for hearing to the brain via auditory nerve.
(iv) Tympanic membrane. It vibrates and then sets the ear ossicles into vibration in the process of hearing.

Solution E.6.
(i) Ear ossicles
(ii) A – Cochlea, B – Semicircular canals, C – Ear ossicles
(iii) Cochlea helps in transmitting impulses to the brain via the auditory nerve. Semicircular canals help in maintaining dynamic equilibrium of the body.
(iv) Organ of Corti

Solution E.7.
Selina Concise Biology Class 10 ICSE Solutions The Excretory System (Elimination of Body Wastes) image - 5

Solution E.8.
(a) Myopia
(b) A-Normal eye, B-Myopia
(c) Looking glasses with the concave lens are required here.

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Selina Concise Biology Class 10 ICSE Solutions Endocrine Glands

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Selina Concise Biology Class 10 ICSE Solutions Endocrine Glands

APlusTopper.com provides step by step solutions for Selina Concise ICSE Solutions for Class 10 Biology Chapter 10 Endocrine Glands. You can download the Selina Concise Biology ICSE Solutions for Class 10 with Free PDF download option. Selina Publishers Concise Biology for Class 10 ICSE Solutions all questions are solved and explained by expert teachers as per ICSE board guidelines.

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Selina ICSE Solutions for Class 10 Biology Chapter 10 Endocrine Glands

Exercise 1

Solution A.1.
(c) pancreas

Solution A.2.
(b) thyroid

Solution A.3.
(c) alcohol

Solution B.1.
(a) Insulin, glucagon, somatostatin
(b) Adrenaline
(c) Hypoglycemia
(d) Insulin
(e) Adrenaline
(f) Anti-diuretic hormone (Vasopressin)
(g) Adrenaline

Solution B.2.
If there was hyposecretion of the thyroid gland in a child; the child will suffer from cretinism. The symptoms of cretinism are dwarfism, mental retardation, etc.

Solution B.3.
(a) Prostate
(b) Scurvy
(c) Cretinism
(d) Cortisone

Solution B.4.
(a) Larynx
Reason- Larynx is the sound box while the rest three i.e. glucagon; testosterone and prolactin are hormones.

(b) Penicillin
Reason – Penicillin is an antibiotic while adrenaline; insulin; thyroxine are hormones.

(c) Adrenaline
Reason – Adrenaline is a hormone while the stomach, ileum and liver are the organs of the digestive system.

(d) Insulin
Reason- Insulin is secreted by the pancreas while TSH, GH, ADH are the hormones secreted by the pituitary gland.

(e) Iodine
Reason- Iodine is required for the synthesis of thyroxine hormone. While cretinism, goitre, myxoedema are the deficiencies occur due to the deficiency of thyroxine.

Solution B.5.

Column I

 Column II
1. Beta cells of islets of Langerhans

(g) Insulin

2. Thyroid

 (c) Exophthalmic goitre
3. Cretinism

(h) Under secretion of thyroxine in a child

4. Addison’s disease

 (b) Glucocorticoids
5. Hypothyroidism

(e) Thyroxine

6. Myxoedema

 (a) condition due to under     secretion of thyroxine in adults
7. Adrenaline

(d) Increases heart beat

8. Cortisone

(f) Adrenal cortex

Solution B.6.

A (Condition)

 B (Cause)
(a) Dwarfism and mental retardation

v. Hypothyroidism

(b) Diabetes mellitus

 i. Excess of glucose in blood
(c) Shortage of glucose in blood

iii. Insulin shock

(d) Gigantism

 ii. Over secretion of growth hormone
(e) Enlargement of breasts in adult males

vi. Over secretion of cortical hormones

(f) Exophthalmic goitre

iv. Over secretion of thyroxine

Solution C.1.
(a) True
Reason- Adrenaline is described as emergency hormone because during any emergency situation more adrenaline is secreted which makes the heart beat faster, increases the breathing, releases more glucose into the blood stream to fulfill the energy requirement.

(b) False
Reason- The two different kinds of diabetes are diabetes insipidus caused due to insufficient secretion of vasopressin and the other is ‘diabetes mellitus’ caused due to hyposecretion of insulin but they cannot be described as mild and severe.

(c) True
Reason-Iodine is an active ingredient in the production of the thyroxine hormone.

(d) True
Reason- Pituitary gland controls the functioning of all the other endocrine glands.

(e) True
Reason- Hormones are poured directly into blood the blood stream and control physiological processes by chemical means. Their action depends on the feedback mechanism.

(f) True
Reason- Gigantism and dwarfism are controlled by the growth hormone from the pituitary gland. Growth hormone is much more active in children for their normal body growth along with which necessary substance required for the synthesis of growth hormone need to be consumed.

Solution C.2.
Endocrine glands are ductless glands, means they pour their secretion i.e. hormones directly into the blood stream while the other glands are exocrine glands which have ducts. Through ducts they pour their secretions (not hormones) into the blood stream.

Solution C.3.
Hormones unlike enzymes are secreted by the endocrine glands only. Also the hormones unlike the enzymes are poured directly into the blood. Hormones can be peptides, steroids, amine but all enzymes are proteins.

Solution C.4.
Chemically hormones are peptides, amines or steroids. They are involved in regulating the metabolism of the body. They can bring about specific chemical changes during metabolic process. Therefore hormones can be termed as ‘chemical messengers’.

Solution C.5.
Iodine is an active ingredient in the production of the thyroxine hormone secreted by the thyroid gland. Thyroxine hormone is a very essential hormone for our body. In case of its abnormal secretions a person may suffer certain sever disorders. Therefore, it is an important nutrient for our body.

Solution C.6.
Adrenaline is the hormone which prepares the body to meet any emergency situation. Adrenaline makes the heart beat faster. At the same time, it stimulates the constriction of the arterioles of the digestive system reducing the blood supply of the digestive system which makes the mouth dry.

Solution C.7.
If one adrenal gland is removed, the other one gets enlarged. This is to meet the requirement of hormones produced by the body.

Solution C.8.

  1. Diabetes mellitus:
    Cause – under secretion of Insulin hormone
    Symptoms – excretion of great deal of urine with sugar, Person feels thirsty and loss of weight. In severe cases, the person may lose the eye sight.
  2. Diabetes insipidus:
    Cause – Under secretion of Anti-diuretic hormone
    Symptoms – frequent urination resulting in loss of water from body and the person feels thirsty.

Solution C.9.
The Himalayan soil is deficient in iodine. Thus, the food grown in such soil also becomes iodine deficient. Due to this reason, when Himalayan people consume iodine deficient food, they do not get the proper intake of iodine. Therefore, people living in the low Himalayan hilly regions often suffer from goitre.

Solution C.10.

S.No.

 Source

Gland cells

 Hormone produced Chief function Effect of over secretion

Effect of under secretion

1.

 Thyroid thyroxine Regulates basal metabolism Exophthalmic goiter Simple goiter, cretinism in children and myxoedema in adults
2. Beta cells of Islets of Langerhans Insulin Promotes glucose utilization by the body cells Hypoglycemia

Diabetes mellitus

3.

 Anterior pituitary Growth hormone Promotes growth of the whole body Gigantism Dwarfism
4. Posterior pituitary Vasopressin Increases reabsorption of water from kidney tubule More concentrated and less amount of urine

Diabetes insipidus

Solution C.11.

Gland

 Hormone secreted

Effect on body

Thyroid

 Thyroxine Regulates basal metabolism
Pancreas (“beta” cells) Insulin

Controls blood sugar level

Adrenal gland

 Adrenaline Increases heart beat
Anterior pituitary Thyroid stimulating hormone

Stimulates thyroxine secretion

Solution C.12.

Gland

 Secretions

Effect on body

Ovary

 oestrogen development of secondary sexual characteristics
Alpha cells of islets of Langerhans Glucagon

Raises blood sugar level

Thyroid

 Hypersecretion of thyroxine Protruding eyes
Anterior pituitary Hypersecretion of Growth hormone

Gigantism

Solution D.1.

Hormonal Response

 Nervous Response
Hormonal response is slow.

Nervous response is immediate.

Hormones are chemical messengers transmitted through blood stream.

 Nerve impulses are transmitted in the form of electro-chemical responses through nerve fibres.
This response brings about a specific chemical changes. Therefore it regulates the metabolism.

This response does not bring any chemical change during metabolism.

Solution D.2.

Action of Hormones

 Action of Nerves
The effect of hormones is wide spread in the body. They can show their effect on more than one target site at a time.

The nerve response affects only particular glands.

The effect of hormones can be short-lived or long lasting.

 The effect of nervous response is always short-lived.
Cannot be modified by the previous learning experiences.

Can be modified by the previous learning experiences.

Solution E.1.
a. Glucagon: Alpha cells of the islets of Langerhans
Insulin: Beta cells of the islets of Langerhans
b. Insulin: It maintains the levels of glucose (sugar) in the blood.
Glucagon: It raises the blood glucose levels by stimulating the breakdown of glycogen to glucose in the liver.
c. An endocrine gland is one which does not pour its secretions into a duct, while an exocrine gland is a gland which pours its secretions into a duct. Because the pancreas produces hormones such as insulin, glucagon and somatostatin directly into the blood and not into a duct, it functions as an endocrine gland. Because it secretes the pancreatic juices for digestion via a duct, it functions as an exocrine gland. Hence, the pancreas is an exo-endocrine gland.
d. Insulin is not administered orally because the digestive juices degrade insulin, and thus the insulin is ineffective in the body.
e. Islets of Langerhans
f. The pancreas is located in the abdomen behind the stomach.

Solution E.2.
(a) This portion is located in the neck region above the sternum.
(b) 1- Larynx, 2 – Thyroid gland, 3 – Trachea
(c) Larynx is the voice box containing vocal cords. It helps in producing sound.
Thyroid gland produces thyroxine and calcitonin which are essential hormones.
Trachea is the wind pipe that helps in passing air to and from the respiratory system while breathing.
(d) Structure 2 is the thyroid gland. It is an endocrine gland, so it is ductless and pours its secretions directly into the blood. Hence, there is no duct.

Solution E.3.
(a) 1- Pituitary gland, 2 – thyroid gland, 3 – pancreas, 4 – adrenal glands
(b) All the glands shown in the above diagram are endocrine glands. They secrete essential hormones and pour their secretions directly into the blood.
(c) Iodine is essential for the normal working of thyroxine.

Solution E.4.
(a) A
(b) Hormone secreted by the endocrine gland is shown in the image A to be moving only in one direction i.e. towards the target organ. But actually the hormones poured into the blood stream may have one or more target sites at a time. The arrows shown are carried to all parts by the blood and their effect is produced only in one or more specific parts.

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Selina Concise Biology Class 10 ICSE Solutions The Reproductive System

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Selina Concise Biology Class 10 ICSE Solutions The Reproductive System

APlusTopper.com provides step by step solutions for Selina Concise ICSE Solutions for Class 10 Biology Chapter 11 The Reproductive System. You can download the Selina Concise Biology ICSE Solutions for Class 10 with Free PDF download option. Selina Publishers Concise Biology for Class 10 ICSE Solutions all questions are solved and explained by expert teachers as per ICSE board guidelines.

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Selina ICSE Solutions for Class 10 Biology Chapter 11 The Reproductive System

Exercise 1

Solution A.1.
(d) Epididymis → vas deferens → urethra

Solution A.2.
(d) 28 days

Solution A.3.
(d) About seven days

Solution B.1.
(a) Scrotum
(b) Seminiferous Tubules
(c) GraafianFollicle
(d) Seminal vesicle
(e) Epididymis

Solution B.2.
(a) Testosterone
(b) Ureter
(c) Ovum
(d) After birth

Solution B.3.
(a) Testes → Sperms → Sperm duct → Semen → Penis
(b) Menarche Puberty → Reproductive age → Menstruals → Menopause
(c) Graafian follicle → Ostium → Fallopian tube → Uterus

Solution B.4.
Seminiferous tubule → Epididymis → Vas deferens → Penis

Solution C.1.
Semen is the mixture of sperms and secretions from seminal vesicles, prostate gland and Cowper’s (bulbo-urethral gland).

Solution C.2.
(a) Inguinal canal: It is the canal which allows the descent of testes along with their ducts, blood vessels and nerves into the abdomen.
(b) Prostate gland: It is a bilobed structure which surrounds the urethra and pours an alkaline secretion into the semen.
(c) Testis: Testis is a male reproductive organ. There a pair of testes present in a scrotal sac descended outside the body cavity. Testes produce sperms which are the male gametes.
(d) Ovary: Ovary is a female reproductive organ.It produces ova i.e. female gametes.
(e) Oviduct: A pair of oviduct is present on either side of the uterus. Oviduct carries the released ovum from the ovary to the uterus.

Solution C.3.
Secondary sexual characters in males:

  1. Beard and moustache
  2. Stronger muscular built
  3. Deeper voice

Secondary sexual characters in females:

  1. Breasts in females
  2. Large hips
  3. High pitched voice

Solution C.4.
The accessory reproductive organs include all those structures which help in the transfer and meeting of two kinds of sex cells leading to fertilization and growth and development of egg up to the birth of the baby.
For example: uterus in females, penis in males.

Solution C.5.

Primary Reproductive Organs

 Accessory Reproductive Organs
The primary reproductive organs produce sex cells.

The accessory reproductive organs help in the transfer and meeting of two kinds of sex cells leading to fertilization.

The primary reproductive organs do not help in the development of baby.

 The accessory organs help in the growth and development of egg up to the birth of baby.
Example: Testes in males and ovaries in females.

Example: penis in males, Uterus, vagina in female.

Solution C.6.
Hymen is a thin membrane which partially covers the opening of the vagina in young females.

Solution C.7.
(a) Hernia: It is an abnormal condition which is caused when the intestine due to the pressure in abdomen bulges into the scrotum through the inguinal canal.
(b) Ovulation: It is the release of the mature ovum by the rupture of the Graafian follicle.
(c) Puberty: It is the period during which immature reproductive system in boys and girls matures and becomes capable of reproduction.

Solution C.8.
Changes in human male:

  1. Development of Beard and moustache
  2. Voice becomes deeper

Changes in human female:

  1. Development of Breasts in females
  2. Development of high pitched voice

Solution C.9.
(a) Menarche is the onset of menstruation in young females at about 13 years of age whereas menopause is the permanent stoppage of menstruation at about 45 years of age.

(b) Cowper’s gland opens into urethra in human males and its secretion serves as a lubricant whereas the prostate gland surrounds the urethra in males and its alkaline secretion neutralizes acid in female’s vagina.

(c) Hymen is a thin membrane that partially covers the opening of vagina in young females whereas clitoris is a small erectile structure located in the uppermost angle of vulva in front of the urethral opening.

(d) Uterus is a hollow, pear shaped muscular organ located in the pelvic cavity. It is the site of implantation for the embryo after fertilisation whereas the vagina is the muscular tube extending from the cervix to the outside. At the time of sexual intercourse, the vagina receives the male penis and provides entry for the sperms.

(e) Efferent ducts join to form the epididymis whereas the epididymis is continued by the side of the testes to give rise to the sperm duct or vas deferens.

Solution D.1.

  • Testes are responsible for the production of male gametes i.e. sperms. The normal body temperature does not allow the maturation of the sperms. Being suspended outside the body cavity, the temperature in the scrotal sac is 2 to 3oC which is the suitable temperature for the maturation of the sperms.
  • When it is too hot, the skin of the scrotum loosens so that the testes hang down away from the body. When it is too cold, the skin contracts in a folded manner and draws the testes closer to the body for warmth.
  • In an abnormal condition, in the embryonic stage, the testes do not descend into the scrotum. It can lead to sterility or incapability to produce sperms.

Solution D.2.
Testosterone is the male reproductive hormone produced by the interstitial cells or the Leydig cells. These cells are located in the testes. They serve as a packing tissue between the coils of the seminiferous tubules. Therefore, it can be said that the testes produce the male hormone testosterone.

Solution D.3.
otal reproductive period = 45 – 13 = 32 years
Total eggs produced = 32 x 12 = 384 eggs approximately

Solution E.1.
(a) Excretory system and Female Reproductive system

(b)

  1. Kidney
  2. Ureter
  3. Fallopian Tube
  4. Infundibulum
  5. Ovary
  6. Uterus
  7. Urinary Bladder
  8. Cervix
  9. Vagina
  10. Vulva

(c)

  • Function of Fallopian Tube (part 3): The fallopian tubes carry the ovum released from the ovary to the uterus.
  • Function of Infundibulum (part 4): Infundibulum is the funnel shaped distal end of the ovary which picks up the released ovum and pushes it further on its passage into the fallopian tube.
  • Function of Ovary (part 5): Ovary produces female gametes i.e. ova.
  • Function of Uterus (part 6): Uterus allows the growth and development of the embryo.

Solution E.2.
(a)

  1. Fallopian Tube
  2. Infundibulum
  3. Ureter
  4. Vagina
  5. Ovary
  6. Uterus
  7. Urinary Bladder
  8. Urethra

(b) Oestrogen secreted by the corpus luteum secrets oestrogen. Oestrogen stimulates the thickening of the endometrial wall of the uterus. The uterine wall becomes thickened and is supplied with a lot of blood to receive the fertilized egg.
(c) If fertilization fails to take place, the endometrial lining of the uterus starts shedding on the 28th day of the menstrual cycle. Finally it is discharged out along with the unfertilised ovum as the menstrual flow.

Solution E.3.
a.

  1. Seminal vesicles
  2. Prostate gland
  3. Bulbo-urethral gland
  4. Epididymis
  5. Testis
  6. Scrotum
  7. Urinary bladder
  8. Vas deferens
  9. Erectile tissue
  10. Penis
  11. Urethra

b. Functions of

  1. Seminal vesicles
    They produce the fluid which serves as the transporting medium for sperms.
  2. Prostate gland
    It produces an alkaline secretion which mixes with the semen and helps neutralise the vaginal acids.
  3. Bulbo-urethral gland
    It produces a secretion which serves as a lubricant for the semen to pass through the urethra.
  4. Testis
    It produces the male gamete sperm and the male sex hormone testosterone.
  5. Vas deferens
    They carry the sperms from the epididymis to the urethra.
  6. Urethra
    It serves as an outlet for delivering the sperms into the vagina.

Exercise 2

Solution A.1.
(c) fallopian tube

Solution A.2.
(a) energy

Solution A.3.
(c) 280 days

Solution B.1.
(a) Amniotic fluid
(b) Uterus
(c) Amniotic membrane
(d) Inguinal canal

Solution B.2.
(a) Sperm
(b) Follicle

Solution B.3.
(a) Ovulation → fertilization → implantation → gestation → child birth
(b) Sperm → sperm duct → urethra → coitus → vagina → ovum

Solution B.4.
(a) Menarche
(b) Ovulation
(c) Menstruation
(d) Fertilization
(e) Implantation

Solution B.5.

Column I

 Column II
(a) Acrosome

(v) spermatozoa

(b) Gestation

 (vii) Time taken by a fertilized egg till the delivery of baby
(c) Menopause

(vi) complete stoppage of menstrual cycle

(d) Foetus

 (i) An embryo which looks like human baby
(e) Oogenesis

(iii) ovum producing cells

(f) Ovulation

(ii) Luteinizing hormone

 

Solution C.1.
(a)

  1. False
  2. False
  3. False
  4. False

(b)

  1. Fertilization occurs in the fallopian tube.
  2. Vagina is also known as the birth canal.
  3. Nutrition and oxygen diffuse from the mother’s blood into the foetus’s blood through placenta.
  4. Gestation period in humans is about 280 days.

Solution C.2.

Structure

 Function
1. Corpus luteum

1. secretes progesterone & other hormones to prepare the uterine wall for the receival of the embryo.

2. Testes

 2. produces male gametes in mass
3. Placental disc

3. supplies oxygen and nutrients to embryo

4. Oxytocin

 4. increases the force in uterine contractions during child birth
5. Umbilical cord

5. connects placenta with foetus

6. Fallopian tube

6. The site of fertilization for the sperm and ovum

Solution C.3.

(a) Foetus:

  1. It is contained in the uterus.
  2. In foetus, limbs have appeared and resembles the humans unlike the embryo which is a growing or dividing zygote.

(b) Hyaluronidase:

  1. Enzyme
  2. It is an enzyme secreted by the sperm that allows the sperm to penetrate the egg.

(c) Morula:
It is the stage in the development of human embryo which consists of a spherical mass of cells. Blastocyst

(d) Amniotic fluid:

  1. Between amnion and embryo
  2. It protects the embryo from physical damage, keeps the pressure all around embryo and prevents sticking of foetus to amnion.

(e) Gestation:
Gestation is the full term of the development of an embryo in the uterus. 280 days in humans.

(f) Placenta:

  1. Placenta is formed by two sets of minute finger like processes called the villi. One set of villi is from the uterine wall and the other set is from the allantois.
  2. Oxygen and amino acids.
  3. Progesterone and oestrogen.

(g) Implantation:

  1. Blastocyst
  2. It occurs in about 5-7 days after ovulation.

Solution D.1.

(a) Sperm is the male gamete produced by the testes. Semen on the other hand is the mixture of sperms and alkaline secretions from the seminal vesicle, prostate gland and Cowper’s gland.

(b) Implantation is the fixing of embryo in the wall of uterus. The state that implantation produces is known as pregnancy.

(c) Follicle is the cellular sac containing a maturing egg. Corpus luteum on the other hand is the remnant of the follicle the release of ovum during ovulation.

(d) Amnion is a sac which develops around the embryo whereas allantois is an extension from the embryo which forms villi of placenta.

(e) Sterility is the incapability to produce sperms whereas impotency is the inability to copulate.

(f) Prostate gland pours alkaline secretions into the semen to neutralize the acid in female’s vagina whereas the secretion of Cowper’s gland serves as a lubricant.

(g) Identical twins are produced from one ovum i.e. one developing zygote splits and grows into two foetuses whereas fraternal twins are produced when two ova get fertilized at a time.

Solution D.2.

  1. After fertilization zygote is formed inside the fallopian tube.
  2. The zygote then divides repeatedly to form a spherical mass of cells known as ‘Morula’.
  3. The morula then develops into a hollow sphere of cells with a surrounding cellular layer and an inner cell mass projecting from it centrally. This stage is known as the ‘blastocyst’. It implants itself into the uterine wall.
    Selina Concise Biology Class 10 ICSE Solutions The Reproductive System image -1
  4. From the blastocyst arises an embryo which is around 3 weeks old. It is a tiny organism that hardly resembles human being.
  5. By the end of 5 weeks, the embryo is with a develoed heart and blood vessels.
  6. By the end of 8 weeks, limbs are developed. This stage is known as ‘foetus’.
  7. At the end of nearly 40 weeks i.e. end of gestation period, the infant is born.

Solution D.3.
(a) Amnion:

  1. Amnion contains the amniotic fluid which surrounds the embryo.
  2. This fluid protects the embryo from physical damage.
  3. It maintains even pressure all around the embryo.
  4. It also prevents sticking of foetus to amnion.

(b) Placenta:

  1. The placenta allows the diffusion of oxygen and nutrients such as glucose, vitamins and amino acids from mother to foetus.
  2. Similarly, it also allows the diffusion of carbon dioxide, urea and waste products from foetus to mother.
  3. Placenta also acts as an endocrine tissue. It secretes oestrogen and progesterone.

Solution E.1.
a. A – ovum
B – sperm

b. Sperms are produced in the testis.
The ovum is produced in the ovary.

c. The reproductive cells unite in the fallopian tubes of the female reproductive system.

d. Ovary – Oestrogen and progesterone
Testis – Testosterone

e. Accessory glands:

  • Seminal vesicle – Seminal fluid
  • Prostate gland – Alkaline secretion
  • Bulbo-urethral gland – Lubricant

Solution E.2.
(a)

  1. umbilical cord,
  2. placenta,
  3. amnion,
  4. mouth of uterus,
  5. muscular wall of uterus

(b) Gestation
(c) 280 days
(d) Placenta provides the foetus with oxygen and nutrients. In addition, the placenta also removes carbon dioxide and waste products of the foetus.
(e) Progesterone

Solution E.3.

Selina Concise Biology Class 10 ICSE Solutions The Reproductive System image -2

Solution E.4.
(a) A – Muscular wall of uterus,
B – Oviduct,
C – Ovary,
D – Cervix
(b) If part B will get blocked, ovum released from the ovary will not get fertilized by the sperm and hence pregnancy will be prevented.

Solution E.5.

  1. Prostate gland
  2. Bulbo-urethral gland
  3. Urethra
  4. Vas deferens
  5. Testis

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