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NCERT MCQ CLASS-9 CHAPTER-5 | ENGLISH NCERT MCQ | | MOMENTS IMPORTANT MCQS | | THE HAPPY PRINCE | EDUGROWN

In This Post we are providing Chapter-5 The Happy Prince NCERT MCQ for Class 9 English which will be beneficial for students. These solutions are updated according to 2021-22 syllabus. These MCQS can be really helpful in the preparation of Board exams and will provide you with a brief knowledge of the chapter.

NCERT MCQ ON THE HAPPY PRINCE

Question 1:

The statue of the happy prince was covered with the layer of

(a) Gold

(b) Brass

(c) Silver

(d) Diamond

Answer:

(a) Gold.

Question 2:

Shining sapphire stones were placed in the —– of the happy prince.

(a) Forehead

(b) Eyes

(c) Sword

(d) Nose

Answer:

(b) Eyes.

Question 3:

There was a bright —- in the handle of the sword.

(a) Ruby

(b) Diamond

(c) Sapphire

(d) Room

Answer:

(a) Ruby.

Question 4:

The little swallow was going to

(a) France

(b) America

(c) Africa

(d) Egypt

Answer:

(d) Egypt.

Question 5:

The little swallow alighted between the —- of the happy prince

(a) Head shoulder

(b) Feet

(c) Two swords

(d) Hand

Answer:

(b) Feet.

Question 6:

The little swallow got the —– bedroom

(a) Silver

(b) Muddy

(c) Golden

(d) Diamond

Answer:

(c) Golden.

Question 7:

Happy prince lived in a place, where —– was not allowed to enter.

(a) Happiness

(b) Sorrow

(c) Goodness

(d) Thief

Answer:

(b) Sorrow.

Question 8:

The hands of the poor woman were red as she got hurt by

(a) Sword

(b) Blade

(c) Needle

(d) Scissor

Answer:

(c) Needle.

Question 9:

The poor woman was embroidering ———- on a satin gown.

(a) Teddy

(b) Flowers

(c) Leaves

(d) Human figure

Answer:

(b) Flowers.

Question 10

The poor woman was making night gown for

(a) Queen’s maid

(b) Herself

(c) Queen

(d) Daughter

Answer;

(a) Queen’s maid.

Question 11:

There was the woman’s —– lying ill in a bed at the corner of the room

(a) Son

(b) Husband

(c) Daughter

(d) Father

Answer:

(a) Son.

Question 12:

The ill son of the woman was asking for —– from his mother

(a) Cucumber

(b) Orange

(c) Good food

(d) Apple

Answer:

(b) Orange.

Question 13:

The little swallow was asked to give —– to the woman by the happy prince.

(a) Ruby

(b) Gold

(c) Sapphire

(d) Silver

Answer:

(a) Ruby.

Question 14:

The swallow was feeling the warmth of

(a) Fever

(b) Goodness

(c) Weather

(d) Worm heart

Answer:

(b) Goodness.

Question 15:

There was —– flower on the table of the poor writer.

(a) Violet

(b) Orchid

(c) Rose

(d) Sunflower

Answer:

(a) Violet.

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NCERT MCQ CLASS-9 CHAPTER-4 | ENGLISH NCERT MCQ | | MOMENTS IMPORTANT MCQS | | IN THE KINGDOM OF FOOLS | EDUGROWN

In This Post we are providing Chapter 4 Kingdom of Fools NCERT MCQ for Class 9 English which will be beneficial for students. These solutions are updated according to 2021-22 syllabus. These MCQS can be really helpful in the preparation of Board exams and will provide you with a brief knowledge of the chapter.

NCERT MCQ ON IN THE KINGDOM OF FOOLS

Question 1. Who were mentioned to be idiots in the kingdom of fools?
(a) King
(b) Minister
(c) Every citizen
(d) Both (a) and (b)

Answer : D

Question 2. Who broke into the merchant’s house?
(a) king
(b) silly minister
(c) disciple
(d) a thief

Answer : D

Question 3. What did the Guru plead to the king to save his disciple?
(a) to kill him first and later his disciple
(b) The king was great
(c) admired the king
(d) none

Answer : A

Question 4. How did the thief enter the merchant’s house?
(a) jumping the wall
(b) from the backdoor
(c) by making a hole into the wall
(d) none

Answer : C

Question 5. What does this story throw light upon?
(a) foolish people and the dangers they pose
(b) kings and their ministers
(c) always be happy
(d) wise people

Answer : A

Question 6. Who did the bricklayer hold responsible for making a weak wall?
(a) the rich merchant
(b) the dancing girl
(c) the disciple
(d) the minister

Answer : B

Question 7. Who did the king decide to execute in place of the merchant?
(a) a man who became fat because of eating
(b) a poor man
(c) merchant’s relative
(d) none

Answer : A

Question 8. Who did the king summon for the first time?
(a) the disciple
(b) the thief’s brother
(c) the merchant
(d) the mason

Answer : C

Question 9. Who was summoned next to the rich merchant?
(a) the bricklayer
(b) the dancer
(c) the goldsmith
(d) the disciple

Answer : A

Question 10. Why did guru decide to leave the place?
(a) because of some urgent work
(b) he had a message to leave the place
(c) king ordered to leave the place
(d) because he thought that it was not safe to be with fools for a long time

Answer : D

Question 11. What made the king and his silly minister go for the stake first?
(a) Guru’s words and their own foolishness
(b) their greed
(c) their foolishness
(d) All

Answer : A

Question 12. What did the king and his minister decide to change?
(a) people
(b) customs
(c) night with day
(d) all

Answer : C

Question 13. What was the disciple’s opinion about living there?
(a) he wanted to live there and enjoy good
(b) he did not want to live there and cheap food
(c) he was afraid of the fools
(d) all the options are correct

Answer : A

Question 14. Why are the people in the kingdom called foolish?
(a) because they follow all the ridiculous orders passed by their king
(b) because they listen to their king
(c) because they do silly things
(d) because they are foolish

Answer : A

Question 15. According to the guru whose behavior is unpredictable?
(a) king’s
(b) people’s
(c) foolish people’s
(d) disciples

Answer : C

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CLASS 11th CHAPTER -22 Chemical Coordination and Integration |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter -22 Chemical Coordination and Integration includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -22 Chemical Coordination and Integration . NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -22 Chemical Coordination and Integration | NCERT BIOLOGY SOLUTION |

Page No: 341

Exercises

1. Define the following:
(a) Exocrine gland
(b) Endocrine gland
(c) Hormone

Answer
(a) Exocrine gland: Glands that discharge their secretions into ducts are known as exocrine glands.

(b) Endocrine gland: Glands that do not discharge their secretions into ducts are known as endocrine glands. These glands discharge their secretions directly into the blood.

(c) Hormone: Hormones are non-nutrient chemicals which act as intercellular messengers and are produced in trace amounts.

2. Diagrammatically indicate the location of the various endocrine glands in our body.

Answer

3. List the hormones secreted by the following:
(a) Hypothalamus (b) Pituitary (c) Thyroid
(d) Parathyroid (e) Adrenal (f) Pancreas
(g) Testis (h) Ovary (i) Thymus
(j) Atrium (k) Kidney (l) G-I Tract

Answer

(a) Hypothalamus
→ Thyrotropin Releasing Hormone (TRH)
→ Gonadotrophin releasing hormone (GnRH)
→ Somatotropin-releasing hormone
→ Adrenocorticotrophin-releasing hormone
→ Prolactin releasing Hormone
→ Growth-inhibiting hormone
→ Melanocyte-inhibiting hormone

(b) Pituitary
→ Growth Hormone (GH)
→ Prolactin (PRL)
→ Thyroid Stimulating Hormone (TSH)
→ Adrenocorticotrophic Hormone (ACTH)
→ Luteinizing Hormone (LH)
→ Follicle Stimulating Hormone (FSH)
→ Melanocyte Stimulating hormone (MSH)
• Neurohypophysis also known as posterior pituitary
→ Oxytocin
→ Vasopressin

(c) Thyroid
→ Thyroxin
→ Triiodothyronin
→ Calcitonin

(d) Parathyroid
→ Parathyroid Hormone

(e) Adrenal
→ Mineralocorticoids (mainly aldosterone)
→ Glucocorticoids (mainly cortisol)
→ Adrenaline
→ Nor-adrenaline

(f) Pancreas
→ Insulin
→ Glucagon

(g) Testis
→ Testosterone

(h) Ovary
→ Estrogen
→ Progesterone

(i) Thymus
→ Thymosins

(j) Atrium
→ Atrial Natriuretic factor

(k) Kidney
→ Erythropoietin

(l) G-I Tract
→ Gastrin
→ Secretin
→ Cholecystokinin (CCK)
→ Gastric inhibitory peptide (GIP)

4. Fill in the blanks:
Hormones Target gland

(a) Hypothalamic hormones __________________

► Pituitary

(b) Thyrotrophin (TSH) __________________

► Thyroid

(c) Corticotrophin (ACTH) __________________

► Adernal

(d) Gonadotrophins (LH, FSH) __________________

► Ovary, Testis

(e) Melanotrophin (MSH) __________________

► Melanoycte

5. Write short notes on the functions of the following hormones,
(a) Parathyroid hormone (PTH)
(b) Thyroid hormones
(c) Thymosins
(d) Androgens
(e) Estrogens
(f) Insulin and Glucagon

Answer

(a) Parathyroid hormone (PTH): It is secreted by Parathyroid gland. It increases the Ca²⁺ levels in the blood. PTH promotes the reabsorption of calcium from nephrons and also, promotes the absorption of calcium from digested food. Thus, it plays an important role in calcium balance in the body.

(b) Thyroid hormones: Thyroid hormones play an important role in the regulation of the basal metabolic rate. These hormones also support the process of red blood cell formation. Thyroid hormones control the metabolism of carbohydrates, proteins and fats. Maintenance of water and electrolyte balance is also influenced by thyroid hormones. Thyroid gland also secretes a protein

hormone called thyrocalcitonin (TCT) which regulates the blood calcium levels.

(c) Thymosins: It play a major role in the differentiation of T-lymphocytes, which provide cell-mediated immunity. It also promote production of antibodies to provide humoral immunity.

(d) Androgens: It regulate the development, maturation and functions of the male accessory sex organs like epididymis, vas deferens, seminal vesicles, prostate gland, urethra etc. Androgens mainly testosterone stimulate muscular growth, growth of facial and axillary hair, aggressiveness, low pitch of voice etc. It stimulates spermatogenesis and formation of mature sperms and also influences male sexual behaviour. These hormones also produce synthetic effects on protein and carbohydrate metabolism.

(e) Estrogens: It produce wide ranging actions such as stimulation of growth and activities of female secondary sex organs, development of growing ovarian follicles, appearance of female secondary sex characters (e.g., high pitch of voice, etc.), mammary gland development. Estrogens also regulate female sexual behaviour.

(f) Insulin and Glucagon: These hormones are secreted by pancreas and helps in regulation of glucose level in body.

Insulin plays a major role in the regulation of glucose homeostasis. It acts mainly on hepatocytes and adipocytes (cells of adipose tissue), and enhances cellular glucose uptake and utilisation. It also stimulates conversion of glucose to glycogen (glycogenesis) in the target cells.
Glucagon plays an important role in maintaining the normal blood glucose levels. Glucagon acts mainly on the liver cells (hepatocytes) and stimulates glycogenolysis resulting in an increased blood sugar (hyperglycemia). It also stimulates the process of gluconeogenesis which also contributes to
hyperglycemia.

6. Give example(s) of:
(a) Hyperglycemic hormone and hypoglycemic hormone
(b) Hypercalcemic hormone
(c) Gonadotrophic hormones
(d) Progestational hormone
(e) Blood pressure lowering hormone
(f) Androgens and estrogens

Answer

(a) Hyperglycemic hormone → Glucagon
hypoglycemic hormone → Insulin

(b) Hypercalcemic hormone → Parathyroid hormone (PTH)

(c) Gonadotrophic hormones → Luteinizing hormone and Follicle stimulating hormone

(d) Progestational hormone → Progesterone

(e) Blood pressure lowering hormone → Nor-adrenaline

(f) Androgens and estrogens → Testosterone

Page No: 342

7. Which hormonal deficiency is responsible for the following:
(a) Diabetes mellitus (b) Goitre (c) Cretinism

Answer

(a) Diabetes mellitus → Insulin
(b) Goitre → Thyroxin hormone
(c) Cretinism → Thyroxin hormone

8. Briefly mention the mechanism of action of FSH.

Answer

Follicle stimulating hormone (FSH) stimulates growth and development of the ovarian follicles in females.
FSH produces its effect by binding to its specific receptors present on the ovarian cell membrane. Binding of FSH hormone to its specific receptor present over the cell surface activates an enzyme called adenylate cyclase. This enzyme converts ATP into cyclicAMP. The cyclicAMP is called the second messenger and carries out various biochemical responses in the cell by activating the existing enzyme system in the cell. The biochemical responses then lead to physiological responses like ovarian growth.

9. Match the following:

Column I	Column II
(a) T₄	(i) Hypothalamus
(b) PTH	(ii) Thyroid
(c) GnRH	(iii) Pituitary
(d) LH	(iv) Parathyroid

Answer

Column I	Column II
(a) T₄	(ii) Thyroid
(b) PTH	(iv) Parathyroid
(c) GnRH	(i) Hypothalamus
(d) LH	(iii) Pituitary

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CLASS 11th CHAPTER -21 Neural Control and Coordination |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter -21 Neural Control and Coordination includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -21 Neural Control and Coordination . NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -21 Neural Control and Coordination | NCERT BIOLOGY SOLUTION |

Page No: 328

Exercises

1. Briefly describe the structure of the following:
(a) Brain (b) Eye (c) Ear

Answer
(a) Brain: The human brain is well protected by the skull. Inside the skull, the brain is covered by cranial meninges consisting of an outer layer called dura mater, a very thin middle layer called arachnoid and an inner layer (which is in contact with the brain tissue) called pia mater. The brain can be divided into three major parts:

(i) Forebrain: The forebrain consists of cerebrum, thalamus and hypothalamus.

(ii) Midbrain: It is located between the thalamus/hypothalamus of the forebrain and pons of the hindbrain.
(iii) Hindbrain: The hindbrain comprises pons, cerebellum and medulla.

(b) Eye: The adult human eye ball is nearly a spherical structure. The wall of the eye ball is composed of three layers. The external layer is composed of a dense connective tissue and is called the sclera. The anterior portion of this layer is called the cornea. The middle layer, choroid, contains many blood vessels and looks bluish in colour. The choroid layer is thin over the posterior two-thirds of the eye ball, but it becomes thick in the anterior part to form the ciliary body. The ciliary body itself continues forward to form a pigmented and opaque structure called the iris which is the visible coloured portion of the eye. The eye ball contains a transparent crystalline lens which is held in place by ligaments attached to the ciliary body. In front of the lens, the aperture surrounded by the iris is called the pupil whose diameter is regulated by the muscle fibres of iris.
The inner layer is the retina and it contains three layers of neural cells from inside to outside – ganglion cells, bipolar cells and photoreceptor cells. There are two types of photoreceptor cells, namely, rods and cones. The daylight (photopic) vision and colour vision are functions of cones and the twilight (scotopic) vision is the function of the rods. The innermost ganglionic cells give rise to optic nerve fibre that forms optic nerve in each eye and is connected with the brain.

(c) Ear: It perform two sensory functions, hearing and maintenance of body balance. It can be divided into three major sections called the outer ear, the middle ear and the inner ear:

→ Outer ear: It consists of the pinna and external auditory meatus (canal). The pinna collects the vibrations in the air which produce sound. The external auditory meatus leads inwards and extends up to the tympanic membrane (the ear drum). There are very fine hairs and wax-secreting glands in the skin of the pinna and the meatus. The tympanic membrane is composed of connective tissues covered with skin outside and with mucus membrane inside.

→ Middle ear: It contains three ossicles called malleus, incus and stapes which are attached to one another in a chain-like fashion. The malleus is attached to the tympanic membrane and the stapes is attached to the oval window of the cochlea. The ear ossicles increase the efficiency of transmission of sound waves to the inner ear. An Eustachian tube connects the middle ear cavity with the pharynx. The Eustachian tube helps in equalising the pressures on either sides of the ear drum.

→ Inner ear: It is also known as labyrinth. Labyrinth is divided into bony labyrinth and a membranous labyrinth. Bony labyrinth is filled with perilymph while membranous labyrinth is filled with endolymph. Membranous labyrinth is divided into two parts – Vestibular apparatus and Cochlea.
The vestibular apparatus is composed of three semi-circular canals and the otolith (macula is the sensory part of saccule and utricle). Each semi-circular canal lies in a different plane at right angles to each other. The membranous canals are suspended in the perilymph of the bony canals. The base of canals is swollen and is called ampulla, which contains a projecting ridge called crista ampullaris which has hair cells. The saccule and utricle contain a projecting ridge called macula. The crista and macula are the specific receptors of the vestibular apparatus responsible for maintenance of balance of the body and posture.
Cochlea is a long and coiled outgrowth of sacculus. It is the main hearing organ. Cochlea consists of three membranes. The organ of corti, a hearing organ, is located on the basilar membrane that has hair cells.

2. Compare the following:
(a) Central neural system (CNS) and Peripheral neural system (PNS)
(b) Resting potential and action potential
(c) Choroid and retina

Answer
(a) Central neural system (CNS) and Peripheral neural system (PNS)

Central neural system (CNS)	Peripheral neural system (PNS)
It is the main coordinating centre of the body.	It is not the main coordinating centre of the body.
It lies inside the skull.	It does not lie inside the skull.
This includes brain and spinal cord.	This includes all the nerves of the body associated with the CNS (brain and spinal cord).

(b) Resting potential and action potential

Resting potential	Action potential
It is the potential difference across the nerve fibre when there is no conduction of nerve impulse.	It is the potential difference across nerve fibre when there is conduction of nerve impulse.
The interior of the neuron is electronegative and the exterior is electropositive.	The interior of the neuron is electropositive and the exterior is electronegative.
An active sodium pump operates.	No sodium pump operates.

Choroid	Retina
Choroid is the middle vascular layer of eye.	Retina is the innermost nervous coat of eye.
It is rich in blood cells	It is rich in neurons
Its function is to supply nutrients and oxygen to other parts of eye like retina	Its function is to form an image of an object over it.

3. Explain the following processes:
(a) Polarisation of the membrane of a nerve fibre
(b) Depolarisation of the membrane of a nerve fibre
(c) Conduction of a nerve impulse along a nerve fibre
(d) Transmission of a nerve impulse across a chemical synapse

Answer
(a) When the resting potential of the membrane changes it becomes polarized. During resting condition, the axoplasm inside the axon contains high concentration of K⁺ and negatively charged proteins and low concentration of Na⁺. As a result, the potassium ions move faster from inside to outside as compared to sodium ions. Therefore, the membrane becomes positively charged outside and negatively charged inside. This is known as polarization of membrane or polarized nerve.

(b) When an electrical stimulus is given to a nerve fibre, an action potential is generated. The membrane becomes permeable to sodium ions than to potassium ions. This results into positive charge inside and negative charge outside the nerve fibre. Hence, the membrane is said to be depolarized.

(c) There are two types of nerve fibres – myelinated and non-myelinated. In myelinated nerve fibre, the impulse is conducted from node to node in jumping manner as myelinated nerve fibre is are enveloped with Schwann cells, which form a myelin sheath around the axon. The myelin sheath is impermeable to ions. As a result, the ionic exchange and depolarisation of nerve fibre is not possible along the whole length of nerve fibre. It takes place only at some point, known as nodes of Ranvier. In non-myelinated nerve fibre, the ionic exchange and depolarization of nerve fibre takes place along the whole length of the nerve fibre because of this ionic exchange, the depolarized area becomes repolarised and the next polarized area becomes depolarized.

(d) At a chemical synapse, the membranes of the pre- and post-synaptic neurons are separated by a fluid-filled space called synaptic cleft. When an impulse arrives at the axon terminal, it stimulates the movement of the synaptic vesicles towards the membrane where they fuse with the plasma membrane and release their neurotransmitters in the synaptic cleft. The released neurotransmitters bind to their specific receptors, present on the post-synaptic membrane. This binding opens ion channels allowing the entry of ions which can generate a new potential in the post-synaptic neuron. The new potential developed may be either excitatory or inhibitory.

4. Draw labelled diagrams of the following:
(a) Neuron (b) Brain (c) Eye (d) Ear

Answer
(a) Neuron

(b) Brain

(c) Eye

(d) Ear

Page No: 329

5. Write short notes on the following:

(a) Neural coordination (b) Forebrain (c) Midbrain (d) Hindbrain (e) Retina (f) Ear ossicles

(g) Cochlea (h) Organ of Corti (i) Synapse

Answer

(a) The process through which two or more organs interact and complement the functions of one another through the neural system, it is called neural coordination. All the physiological processes in the body are closed linked and dependent upon each other. The neural system and the endocrine system jointly coordinate and integrate all the activities of the organs so that they function in a synchronised fashion. The neural system provides an organised network of point-to-point connections for a quick coordination. The endocrine system provides chemical integration through hormones.

(b) The forebrain consists of cerebrum, thalamus and hypothalamus.

→ Cerebrum forms the major part of the human brain. A deep cleft divides the cerebrum longitudinally into two halves, which are termed as the left and right cerebral hemispheres. The hemispheres are connected by a tract of nerve fibres called corpus callosum. The layer of cells which covers the cerebral hemisphere is called cerebral cortex and is thrown into prominent folds. The cerebral cortex is referred to as the grey matter due to its greyish appearance. The cerebral cortex contains motor areas, sensory areas and large regions that are neither clearly sensory nor motor in function. These regions called as the association areas are responsible for complex functions like intersensory associations, memory and communication.Fibres of the tracts are covered with the myelin sheath, which constitute the inner part of cerebral hemisphere. They give an opaque white appearance to the layer and, hence, is called the white matter.

→ Thalamus: It is a region present at the centre of the forebrain and wrapped by cerebrum. It is coordination center for sensory and motor signalling.

→ Hypothalamus: It lies at the base of the thalamus which contains a number of centres which control body temperature, urge for eating and drinking. It also contains the nerve centres for temperature regulation, hunger, thirst, heart beat and respiration regulation and emotions such as anger, love, cool, etc. It has connection with pituitary gland hence also controls growth and sexual behaviour.
(c) The midbrain is located between the thalamus/hypothalamus of the forebrain and pons of the hindbrain. A canal called the cerebral aqueduct passess through the midbrain. The dorsal portion of the midbrain consists mainly of four round swellings (lobes) called corpora quadrigemina. Midbrain and hindbrain form the brain stem.

(d) The hindbrain comprises pons, cerebellum and medulla.
→ Pons consists of fibre tracts that interconnect different regions of the brain.
→ Cerebellum has very convoluted surface in order to provide the additional space for many more neurons.
→ The medulla of the brain is connected to the spinal cord. The medulla contains centres which control respiration, cardiovascular reflexes and gastric secretions.

(e) Retina is the innermost layer which contains three layers of neural cells – from inside to outside – ganglion cells, bipolar cells and photoreceptor cells. There are two types of photoreceptor cells, namely, rods and cones. The daylight vision and colour vision are functions of cones and twilight vision is the function of the rods. The light enters through cornea, the lens and the images of objects are formed on the retina.

(f) The middle ear contains three ear ossicles called malleus, incus and stapes which are attached to one another in a chain-like fashion. The malleus is attached to the tympanic membrane, incus is connected with stapes. and the stapes is attached to the oval window of the cochlea.The ear ossicles increase the efficiency of transmission of sound waves to the inner ear.

(g) The coiled portion of the labyrinth is called cochlea. The membranes constituting cochlea, the reissner’s and basilar, divide the surounding perilymph filled bony labyrinth into an upper scala vestibuli and a lower scala tympani. The space within cochlea called scala media is filled with endolymph. At the base of the cochlea, the scala vestibuli ends at the oval window, while the scala tympani terminates at the round window which opens to the middle ear

(h) The organ of corti is a structure located on the basilar membrane which contains hair cells that act as auditory receptors. The hair cells are present in rows on the internal side of the organ of corti.

(i) A synapse is formed by the membranes of a pre-synaptic neuron and a post-synaptic neuron, which may or may not be separated by a gap called synaptic cleft. These are of two types electrical synapses and chemical synapses.

6. Give a brief account of:
(a) Mechanism of synaptic transmission
(b) Mechanism of vision
(c) Mechanism of hearing

Answer

(a) A nerve impulse is transmitted from one neuron to another through junctions called synapses which is formed by the membranes of a pre-synaptic neuron and a post-synaptic neuron may or may not be separated by synaptic cleft. There are two types of synapses, namely, electrical synapses and chemical synapses.
At electrical synapses, the membranes of pre- and post-synaptic neurons are in very close proximity so electrical current can flow directly from one neuron into the other across these synapses. Transmission of an impulse across electrical synapses is very similar to impulse conduction along a single axon and transmission is always faster than that across a chemical synapse however it is not common in human body.

At a chemical synapse, the membranes of the pre- and post-synaptic neurons are separated by a fluid-filled space called synaptic cleft. Chemicals called neurotransmitters are involved in the transmission of impulses at these synapses.

(b) The light rays in visible wavelength focussed on the retina through the cornea and lens generate impulses in rods and cones. The photosensitive compounds in the human eyes is composed of opsin and retinal. Light induces dissociation of the retinal from opsin resulting in changes in the structure of the opsin. This causes membrane permeability changes therefore potential differences are generated in the photoreceptor cells. This produces a signal that generates action potentials in the ganglion cells through the bipolar cells. These impulses are transmitted by the optic nerves to the visual cortex area of the brain, where the neural impulses are analysed and the image formed on the retina is recognised based on earlier memory and experience.

(c) The external ear receives sound waves and directs them to the ear drum.The ear drum vibrates in response to the sound waves and these vibrations are transmitted through the ear ossicles to the oval window. The vibrations are passed through the oval window on to the fluid of the cochlea, where they generate waves in the lymphs. The waves in the lymphs induce a ripple in the basilar membrane. These movements of the basilar membrane bend the hair cells, pressing them against the tectorial membrane therefore nerve impulses are generated in the associated afferent neurons. These impulses are transmitted by the afferent fibres via auditory nerves to the auditory cortex of the brain, where the impulses are analysed and the sound is recognised.

7. Answer briefly:
(a) How do you perceive the colour of an object?
(b) Which part of our body helps us in maintaining the body balance?
(c) How does the eye regulate the amount of light that falls on the retina?

Answer

(a) The cones are responsible for color vision. There are three types of cones cells that respond to green light, blue light and red light according to their characteristics. These cells are stimulated by different lights, from different sources. The combinations of the signals generated help us see the different colours.

(b) The Inner ear has three semi-circular canals forming cochlea. Cochlea is responsible for maintaining the body balance.

(c) Pupil is the small aperture surrounded by the the iris that regulates the amount of light entering the eye. This expand in case of low light and contract in case of intense light thereby regulating the amount of light falling on the retina.

8. Explain the following:
(a) Role of Na+ in the generation of action potential.
(b) Mechanism of generation of light-induced impulse in the retina.
(c) Mechanism through which a sound produces a nerve impulse in the inner ear.

Answer

(a) The action potential is determined by Na⁺ ions. The Na⁺ channels which are closed in the resting state, open and cause the inflow of Na⁺ ions by diffusion into the inside of axoplasm. The electrical potential of the membrane changes from 70 mV towards zero and then the membrane is said to be depolarised.

(b) The photopigments of the retina are photosensitive compounds in the eye that are composed of retinal and opsin. Light induces dissociation of retinal from opsin which changes the structure of the opsin. It generates action potential in the bipolar neurons. These impulses/action potential are transmitted by the optic nerves to the visual cortex of the brain where the neural impulses are analysed and the erect image is recognised.

(c) When sound falls over the ear drum, it is then transmitted to the inner ear by ear ossicles. The vibrations are passed through the oval window onto the fluid of the cochlea, where they generate waves in the lymphs. The waves induce a ripple in the basilar membrane that bend the hair cells, pressing them against the techtonial membrane. As a result nerve impulses are generated in the associated afferent neurons and transmitted to auditory cortex of brain via auditory nerves, where the impulses are analysed and the sound is recognised.

9. Differentiate between:
(a) Myelinated and non-myelinated axons
(b) Dendrites and axons
(c) Rods and cones
(d) Thalamus and Hypothalamus
(e) Cerebrum and Cerebellum

Answer

(a) Myelinated and non-myelinated axons

Myelinated axons	Non myelinated axons
These appear whitish in colour.	These appear greyish in colour.
Myelin sheath is present	Myelin sheath is absent
Nodes of Ranvier are present at intervals.	Nodes of Ranvier are absent.
Transmission of nerve impulse is faster.	Transmission of nerve impulse is slower
Ion exchange can occur only at the nodes.	Ion exchange occurs all over the surface.

(b) Dendrites and axons

Dendrites	Axons
These are extension of cyton present at anterior position.	These are extension of cyton present at posterior position.
These conduct impulses towards the cell body.	These conduct impulses away from the cell body.
Dendrites are always non-myelinated.	Axons can be myelinated or non-myelinated.
The terminals of dendrites become receptors.	The terminals of axon ends in a group of branches called terminal arborisations.

Rods	Cones
Rods are sensitive to dim light.	Cones are sensitive to bright light only.
They have visual purple pigment called rhodopsin.	They have visual violet pigment called iodopsin.
Colours are not visible with rod cells.	Cones help to see colours.

(d) Thalamus and Hypothalamus

Thalamus	Hypothalamus
It represent the side of diencephalon.	It represents the lower part of diencephalon.
It is the major coordinating centre for sensory and motor signalling.	It is the major centre for regulation of body temperature, thirst, hunger etc.
It does not secrete any hormone.	It secretes several hormones.

(e) Cerebrum and Cerebellum

Cerebrum	Cerebellum
It is part of fore brain	It is part of hind brain
It consists of two cerebral hemispheres.	It consists of two cerebellar hemispheres and a median vermis.
It initiates voluntary movements.	It maintains posture and equilibrium.

10. Answer the following:

(a) Which part of the ear determines the pitch of a sound?
► Cochlea

(b) Which part of the human brain is the most developed?
► Cerebrum

(c) Which part of our central neural system acts as a master clock?
► Hypothalamus

11. The region of the vertebrate eye, where the optic nerve passes out of the retina, is called the
(a) fovea
(b) iris
(c) blind spot
(d) optic chaisma
► (c) blind spot

12. Distinguish between
a) Afferent neurons and Efferent neurons
b) Impulse conduction in a myelinated nerve fibre and an unmyelinated nerve fibre
c) Aqueous humour and Vitreous humour
d) Blind spot and Yellow spot
e) Cranial nerves and Spinal nerves

Answer
a) Afferent neurons and Efferent neurons

Afferent neurons	Efferent neurons
They conduct impulses towards the central neural system.	They conduct impulses away from the central neural system
It provides stimulus and evoke senses.	It results in the response by the effectors.
They are sensory in nature.	They are motor in nature.
These take information from the receptors.	These take information to effectors.

b) Impulse conduction in a myelinated nerve fibre and an unmyelinated nerve fibre

Impulse conduction in a myelinated nerve fibre	Impulse conduction in a unmyelinated nerve fibre
The depolarisation occurs only in the nodes of Ranvier where the myelin sheath is absent.	The depolarisation occurs all along the length of the nerve fibre.
Action potential jumps from one node of Ranvier to another.	Action potential travels along the entire length of the fibre.
Conduction is faster.	Conduction is slower.
Less amount of energy is required.	More amount of energy is required.

c) Aqueous humour and Vitreous humour

Aqueous humour	Vitreous humour
It is a watery and transparent fluid.	It is thick gelly-like transparent fluid
It is present between lens and cornea.	It is present between lens and retina.
It is continuously secreted by ciliary processes and drained out of the eyes.	It is not replaced.
It provides nourishment to lens, cornea and other parts of anterior chamber.	It does not have nutritive value.

d) Blind spot and Yellow spot

Blind spot	Yellow spot
Blind spot is a spot on the retina present at the point of origin of the optic nerve.	Yellow spot is a small area on the retina present at the posterior pole of the eye, lateral to the blind spot.
It does not have a shallow depression.	It has a shallow depression called fovea centralis.
Photoreceptor cells are absent from this region.	Only cones are present in this region.
It is insensitive to light.	It is sensitive to bright light.
Photoreceptor cells are absent from this region.	Only cones are present in this region.
No image is formed at the blind spot.	An image is formed at the yellow spot.

e) Cranial nerves and Spinal nerves

Cranial nerves	Spinal nerves
They originate from the brain.	They originate from the spinal cord.
There are 12 pairs of cranial nerves.	There are 31 pairs of spinal nerves.
These are sensory, motor or mixed in nature.	They are mixed in nature.
They extend between the brain and body parts.	They extend between the spinal cord and body parts.

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CLASS 11th CHAPTER -20 Locomotion and Movement |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter -20 Locomotion and Movement includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -20 Locomotion and Movement . NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -20 Locomotion and Movement | NCERT BIOLOGY SOLUTION |

Exercises

Page No: 313

1. Draw the diagram of a sarcomere of skeletal muscle showing different regions.

Answer

2. Define sliding filament theory of muscle contraction.

Answer

Sliding filament theory of muscle contraction states that contraction of a muscle fibre takes place by the sliding of the thin filaments over the thick filaments.

3. Describe the important steps in muscle contraction.

Answer

The important steps muscle contraction:

→ Muscle contraction is initiated by a signal sent by the central nervous system (CNS) via a motor neuron and reach the neuromuscular junction. As a result, neurotransmitter (Acetyl choline) which generates an action potential in the sarcolemma.

→ This spreads through the muscle fibre and causes the release of calcium ions into the sarcoplasm.

→ Increase in Calcium level leads to the binding of calcium with a subunit of troponin on actin filaments and thereby remove the masking of active sites for myosin. Utilising the energy from ATP hydrolysis, the myosin head now binds to the exposed active sites on actin to form a cross bridge.

→The actin filaments are pulled. As a result, the H-zone reduces. It is at this stage that the contraction of the muscle occurs.

→ After muscle contraction, the myosin head pulls the actin filament and releases ADP along with inorganic phosphate. ATP molecules bind and detach myosin and the cross bridges are broken and decreases the calcium ions contraction. As a result, masking the actin filaments and leading to muscle relaxation.

4. Write true or false. If false change the statement so that it is true.

(a) Actin is present in thin filament

► True

(b) H-zone of striated muscle fibre represents both thick and thin filaments.

► False, H -zone of striated muscle fibre represents thick filament.

(c) Human skeleton has 206 bones.

► True

(d) There are 11 pairs of ribs in man.

► False, There are 12 pairs of ribs in man.

(e) Sternum is present on the ventral side of the body.

► True

5. Write the difference between:
(a) Actin and Myosin
(b) Red and White muscles
(c) Pectoral and Pelvic girdle

Answer

(a) Actin and Myosin

Actin	Myosin
Actin is a thin contractile protein.	Myosin is a thick contractile protein.
The light bands called I-band or Isotropic band contain actin.	The dark band called ‘A’ or Anisotropic band contains myosin.

(b) Red and White muscles

Red Muscles	White Muscles
Red muscle fibres are thin and smaller in size.	White muscle fibres are thick and larger in size.
They are red in colour as they contain large amounts of myoglobin.	They are white in colour as they contain small amounts of myoglobin.
They contain plenty of mitochondria.	They contain less number of mitochondria.
They provide energy by aerobic respiration.	They provide energy by anaerobic respiration.

Pectoral	Pelvic girdle
Pectoral girdle is situated in the pectoral region of the body.	Pelvic girdle is situated in the pelvic region of the body.
It is composed of two bones namely, clavicle or collar bones and scapula or shoulder bone.	It is composed of three bones, upper ileum, inner pubic, and ischium.
It has no articulation with the vertebral column.	It has articulation with the vertebral column.
These perform functions like holding, lifting etc.	These perform functions like running, standing, jumping etc.

6. Match Column I with Column II:

	Column I		Column II
(a)	Smooth muscle	(i)	Myoglobin
(b)	Tropomyosin	(ii)	Thin filament
(c)	Red muscle	(iii)	Sutures
(d)	Skull	(iv)	Involuntary

Answer

	Column I		Column II
(a)	Smooth muscle	(iv)	Involuntary
(b)	Tropomyosin	(ii)	Thin filament
(c)	Red muscle	(i)	Myoglobin
(d)	Skull	(iii)	Sutures

7. What are the different types of movements exhibited by the cells of human body?

Answer

Movement is one of the significant features of living beings. The different types of movements exhibited by the cells of human body are:

→ Amoeboid movement: Some specialised cells in our body like macrophages and leucocytes in blood exhibit amoeboid movement. It is effected by pseudopodia formed by the streaming of protoplasm (as in Amoeba). Cytoskeletal elements like microfilaments are also involved in amoeboid movement.

→ Ciliary Movement: It occurs in most of our internal tubular organs which are lined by ciliated epithelium. The coordinated movements of cilia in the trachea help us in removing dust particles and some of the foreign substances inhaled alongwith the atmospheric air. Passage of ova through the female reproductive tract is also facilitated by the ciliary movement.

→ Muscular movement: Muscle cells show muscular movement such as limbs, jaws, tongue, etc,

8. How do you distinguish between a skeletal muscle and a cardiac muscle?

Answer

Skeletal Muscle	Cardiac Muscle
The cells of skeletal muscles are unbranched.	The cells of cardiac muscles are branched.
Intercalated disks are absent.	The cells are joined with one another by intercalated disks that help in coordination or synchronization of the heart beat.
Alternate light and dark bands are present.	Faint bands are present.
They are voluntary in nature.	They are involuntary in nature.
They contract rapidly and get fatigued in a short span of time.	They contract rapidly but do not get fatigued easily.
They are present in body parts such as the legs, tongue, hands, etc.	These muscles are present in the heart and control the contraction and relaxation of the heart.

9. Name the type of joint between the following:-

(a) atlas/axis
► Pivotal joint

(b) carpal/metacarpal of thumb

► Saddle joint

(c) between phalanges

► Hinge joint

(d) femur/acetabulum

► Ball and Socket joint

(e) between cranial bones

► Fibrous

(f) between pubic bones in the pelvic girdle

► Cartilaginous joint

10. Fill in the blank spaces:

(a) All mammals (except a few) have __________ cervical vertebra.
► seven

(b) The number of phalanges in each limb of human is __________
► 14

(c) Thin filament of myofibril contains 2 ‘F’ actins and two other proteins namely __________ and __________.
► troponin, tropomyosin

(d) In a muscle fibre Ca⁺⁺ is stored in __________
► sarcoplasmic reticulum

(e) __________ and __________ pairs of ribs are called floating ribs.
► 11th and 12th

(f) The human cranium is made of __________ bones.
► eight

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CLASS 11th CHAPTER -19 Excretory Products and their Elimination |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter -19 Excretory Products and their Elemination includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -19 Excretory Products and their Elemination . NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -19 Excretory Products and their Elemination | NCERT BIOLOGY SOLUTION |

Exercises

Page No: 300

1. Define Glomerular Filtration Rate (GFR)

Answer

The amount of the filtrate formed by the kidneys per minute is called glomerular filtration rate (GFR).

2. Explain the autoregulatory mechanism of GFR.

Answer

The kidneys have built-in mechanisms for the regulation of glomerular filtration rate. One such efficient mechanism is carried out by juxtabglomerular apparatus (JGA). JGA is a special sensitive region formed by cellular modifications in the distal convoluted tubule and the afferent arteriole at the location of their contact. A fall in GFR can activate the JG cells to release renin which can stimulate the glomerular blood flow and thereby the GFR back to normal.

3. Indicate whether the following statements are true or false:

(a) Micturition is carried out by a reflex.

► True

(b) ADH helps in water elimination, making the urine hypotonic.

► False

(c) Protein-free fluid is filtered from blood plasma into the Bowman’s capsule.

► True

(d) Henle’s loop plays an important role in concentrating the urine.

► True

(e) Glucose is actively reabsorbed in the proximal convoluted tubule.

► True

4. Give a brief account of the counter current mechanism.

Answer

The counter current mechanism operating inside the kidney is the main adaptation for the conservation of water. The Henle’s loop and vasa rectaare two counter current mechanisms inside the kidneys. The flow of filtrate in the two limbs of Henle’s loop is in opposite directions and thus forms a counter current. As a result, blood entering the renal medulla in the descending limb comes in close contact with the outgoing blood in the ascending limb. The osmolarity increases from 300 mOsmolL^-1 in the cortex to 1200 mOsmolL^-1 in the inner medulla by counter current mechanism. It helps in maintaining the concentration gradient, which in turn helps in easy movement of water from collecting tubules. The gradient is a result of the movement of NaCl and urea.

5. Describe the role of liver, lungs and skin in excretion.

Answer

• Role of Lungs: This remove large amounts of CO₂ and also significant quantities of water every day.

• Role of Liver: This is the largest gland in our body, secretes bile-containing substances like bilirubin, biliverdin, cholesterol, degraded steroid hormones, vitamins and drugs. Most of these substances ultimately pass out alongwith digestive wastes.

• Role of Skin: Skin has sweat and sebaceous glands that can eliminate certain substances through their secretions. Sweat glands are highly vascular and tubular glands that separate the waste products from the blood and excrete them in the form of sweat. Sweat excretes excess salt and water from the body. Sebaceous glands eliminate certain substances like sterols, hydrocarbons and waxes through sebum.

6. Explain micturition.

Answer
The process of release of urine is called micturition. Urine formed by the nephrons is ultimately carried to the urinary bladder where it is stored till a voluntary signal is given by the central nervous system (CNS). This signal is initiated by the stretching of the urinary bladder as it gets filled with urine. In response, the stretch receptors on the walls of the bladder send signals to the CNS. The CNS passes on motor messages to initiate the contraction of smooth muscles of the bladder and simultaneous relaxation of the urethral sphincter causing the release of urine. An adult human excretes, on an average, 1 to 1.5 litres of urine per day.

7. Match the items of column Iwith those of column II:

Column I		Column II
(a)	Ammonotelism	(i)	Birds
(b)	Bowman’s capsule	(ii)	Water reabsorption
(c)	Micturition	(iii)	Bony fish
(d)	Uricotelism	(iv)	Urinary bladder
(d)	ADH	(v)	Renal tubule

Answer

Column I		Column II
(a)	Ammonotelism	(i)	Bony fish
(b)	Bowman’s capsule	(ii)	Renal tubule
(c)	Micturition	(iii)	Urinary bladder
(d)	Uricotelism	(iv)	Birds
(d)	ADH	(v)	Water reabsorption

Page No: 308

8. What is meant by the term osmoregulation?

Answer

Osmoregulation is the regulation of blood volume, body fluid volume and ionic concentration.

9. Terrestrial animals are generally either ureotelic or uricotelic, not ammonotelic, why?

Answer

Terrestrial animals are generally either ureotelic or uricotelic, not ammonotelic because:
→ Ammonia is the most toxic form and requires large amount of water for its elimination, whereas uric acid, being the least toxic, can be removed with a minimum loss of water. Therefore, it needs to be converted into a less toxic form such as urea or uric acid.
→ As ammonia is readily soluble, is generally excreted by diffusion across body surfaces or through gill surfaces (in fish) as ammonium ions. Hence, it is converted into urea or uric acid. These forms are less toxic and also insoluble in water. This helps terrestrial animals conserve water.

10. What is the significance of juxta glomerular apparatus (JGA) in kidney function?

Answer

The JGA plays a complex regulatory role. A fall in glomerular blood flow/glomerular blood pressure/GFR can activate the JG cells to release renin which converts angiotensinogen in blood to angiotensin I and further to angiotensin II. Angiotensin II, being a powerful vasoconstrictor, increases the glomerular blood pressure and thereby GFR. Angiotensin II also activates the adrenal cortex to release Aldosterone. Aldosterone causes reabsorption of Na⁺ and water from the distal parts of the tubule. This also leads to an increase in blood pressure and GFR. This complex mechanism is generally known as the Renin-Angiotensin mechanism.

11. Name the following:

(a) A chordate animal having flame cells as excretory structures

► Flatworms

(b) Cortical portions projecting between the medullary pyramids in the human kidney
► Columns of Bertini

(c) A loop of capillary running parallel to the Henle’s loop.
► Vasa Recta

12. Fill in the gaps:

(a) Ascending limb of Henle’s loop is ____________to water whereas the descending limb is___________to it.
► impermeable, permeable

(b) Reabsorption of water from distal parts of the tubules is facilitated by hormone____________.
► vassopressin

(c) Dialysis fluid contains all the constituents as in plasma except________.
► nitrogenous waste

(d) A healthy adult human excretes (on an average) _______ gm of urea/day.
► 25 to 30

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CLASS 11th CHAPTER -18 Body Fluids and Circulation |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter -18 Body Fluids and Circulation includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -18 Body Fluids and Circulation. NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -18 Body Fluids and Circulation | NCERT BIOLOGY SOLUTION |

Exercises

Page No: 289

1. Name the components of the formed elements in the blood and mention one major function of each of them.

Answer

The components of the formed elements in the blood with their major function are:

→ Erythrocytes (RBC): The erythrocytes play a significant role in transport of respiratory gases.
→ Leucocytes (WBC): The leucocytes play an important role to fight against infections.

→ Thrombocytes (Platelets): Platelets are involve in the coagulation or clotting of blood.

2. What is the importance of plasma proteins?

Answer

The major plasma proteins are fibrinogen, globulins and albumins.

• Fibrinogen play important role in blood coagulation.

• Globulins protects the body against infecting agents

• Albumins helps in maintaining the fluid volume within the vascular space.

3. Match column I with column II:

Column I			Column II
(a)	Eosinophils	(i)	Coagulation
(b)	RBC	(ii)	Universal Recipient
(c)	AB Group	(iii)	Resist Infections
(d)	Platelets	(iv)	Contraction of Heart
(e)	Systole	(v)	Gas transport

Answer

Column I			Column II
(a)	Eosinophils	(iii)	Resist Infections
(b)	RBC	(v)	Gas transport
(c)	AB Group	(ii)	Universal Recipient
(d)	Platelets	(i)	Coagulation
(e)	Systole	(iv)	Gas transport

4. Why do we consider blood as a connective tissue?

Answer

Blood as a connective tissue because:

→ Blood serves the purpose of connecting the body systems by transporting substances.

→ Blood is mesodermal in origin like any other connective tissues.

5. What is the difference between lymph and blood?

Answer

Lymph	Blood
It is red-coloured fluid	It is a colourless fluid.
It contains plasma and lesser number of WBCs and platelets.	It contains plasma, RBCs, WBCs, and platelets.
Its plasma lacks proteins.	Its plasma has proteins, calcium, and phosphorus.
It transports nutrients from the tissue cells to the blood, through lymphatic vessels.	It transports nutrients and oxygen from one organ to another.
It helps in body defence and is a part of the immune system.	It helps in the circulation of oxygen and carbon dioxide.
The flow of lymph is slow.	The flow of blood in the blood vessels is fast.

6. What is meant by double circulation? What is its significance?

Answer

Double circulation is a process during which blood passes twice through the heart during one complete cycle. It consist of two separate circulation:

→ Systemic circulation: In this circulation the oxygenated blood from the left ventricle of heart is pumped to all the body parts (except lungs) through aorta. After this, deoxygenated blood from various parts comes back to heart by superior and inferior vena cava into the right atria. This completes the 1st circulation.

→ Pulmonary circulation: In pulmonary circulation the deoxygenated blood brought back from body parts is pumped to lungs by the right ventricle through the pulmonary artery. In lungs deoxygenated blood is again converted back to oxygenated blood and sent back to the heart in left atria by pulmonary veins. This completes the 2nd circulation.

The most important significance of this system is that the oxygenated and deoxygenated blood does not mix anywhere in the body thus improves the oxygen supplying capacity of the heart.

7. Write the differences between:
(a) Blood and Lymph
(b) Open and Closed system of circulation
(c) Systole and Diastole
(d) P-wave and T-wave

Answer

(a) Blood and Lymph

Lymph	Blood
It is a colourless fluid.	It is red-coloured fluid.
It contains plasma and lesser number of WBCs and platelets.	It contains plasma, RBCs, WBCs, and platelets.
It transports nutrients from the tissue cells to the blood, through lymphatic vessels.	It transports nutrients and oxygen from one organ to another.
It helps in body defence and is a part of the immune system.	It helps in the circulation of oxygen and carbon dioxide.

(b) Open and Closed system of circulation

Open system of circulation	Closed system of circulation
In this system, blood is pumped by the heart, through large vessels, into body cavities called sinuses.	In this system, blood is pumped by the heart, through a closed network of vessels.
The body tissues are in direct contact with blood.	The body tissues are in indirect contact with blood.
Blood flows at low pressure.	Blood flows at high pressure.
Blood flow cannot be regulated.	Blood flow can be regulated
This is present in arthropods and molluscs.	This is present in annelids, echinoderms, and vertebrates.

Systole	Diastole
It is the contraction of the heart chambers to drive blood into the aorta and the pulmonary artery.	It is the relaxation of the heart chambers between two contractions.
Systole decreases the volume of the heart chambers and forces the blood out of them.	Diastole brings the heart chambers back into their original sizes to receive more blood

(d) P-wave and T-wave

Systole	Diastole
In an electrocardiogram (ECG), the P-wave indicates the activation of the Sino-atrial node.	In an electrocardiogram (ECG), the T-wave represents ventricular relaxation.
During this phase, the impulse of contraction is generated by the SA node, causing atrial depolarisation.	During this phase, the ventricles relax and return to their normal state.
It is of atrial origin.	It is of ventricular origin.

8. Describe the evolutionary change in the pattern of heart among the vertebrates.

Answer

The heart of vertebrates evolved from the simple 2-chambered heart of fishes to complex multi-chambered hearts.
Fishes have a 2-chambered heart with an atrium and a ventricle. Amphibians and the reptiles except crocodiles have a 3-chambered heart with two atria and a single ventricle, whereas crocodiles, birds and mammals possess a 4-chambered heart with two atria and two ventricles.
In fishes the heart pumps out deoxygenated blood which is oxygenated by the gills and supplied to the body parts from where deoxygenated blood is returned to the heart (single circulation).
In amphibians and reptiles, the left atrium receives oxygenated blood from the gills/lungs/skin and the right atrium gets the deoxygenated blood from other body parts. However, they get mixed up in the single ventricle which pumps out mixed blood (incomplete double circulation).
In birds and mammals, oxygenated and deoxygenated blood received by the left and right atria respectively passes on to the ventricles of the same sides. The ventricles pump it out without any mixing up, i.e., two separate circulatory pathways are present in these organisms, hence, these animals have double circulation.

9. Why do we call our heart myogenic?

Answer

Heart is called myogenic because all the normal activities of the heart are regulated intrinsically or the activities are auto regulated by specialised muscles known as nodal tissues without the need for an external stimulus to be delivered by the nervous system.

10. Sino-atrial node is called the pacemaker of our heart. Why?

Answer

The sino-atrial (SA) node is a node of specialised cardiac muscle fibres located in the upper part of the right atrium of the heart. The cardiac impulse originates from the SA node triggers a sequence of electrical events in the heart and is responsible for initiating and maintaining the rhythmic contractile activity of the heart. Therefore, it is called the pacemaker.

11. What is the significance of atrio-ventricular node and atrio-ventricular bundle in the functioning of heart?

Answer

The atrio-ventricular node and atrio-ventricular bundle has the ability to generate action potentials without any external stimuli. Their main function is to get excited by the action potential initiated by the Sino- atrial node and conduct the stimulus to the remaining part of the heart through which they branch thus helping in the rhythmic contraction and relaxation of the heart.

12. Define a cardiac cycle and the cardiac output.

Answer

The sequential events taking place in the heart which is the contraction or systole and relaxation or diastole of both the atria and ventricles is called cardiac cycle.

The volume of blood pumped out by the ventricles in one minute is called the cardiac output.

13. Explain heart sounds.

Answer

Two prominent sounds are produced during each cardiac cycle. The first heart sound (lub) is associated with the closure of the tricuspid and bicuspid valves whereas the second heart sound (dub) is associated with the closure of the semilunar valves. These sounds are of clinical diagnostic significance.

14. Draw a standard ECG and explain the different segments in it.

Answer

Each peak in the ECG is identified with a letter from P to T that corresponds to a specific electrical activity of the heart.
The P-wave represents the electrical excitation or depolarization of the atria. Depolarisation of atria leads to atricular systole.
The QRS complex represents the depolarization of the ventricles which initiates ventricular systole.
The T-wave represents the return of the ventricles from excited to normal state (repolarisation). The end of T-wave marks the end of systole.

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CLASS 11th CHAPTER -17 Breathing and Exchange of gases |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter -17 Breathing and Exchange of Gases includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -17 Breathing and Exchange of Gases. NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -17 Breathing and Exchange of Gases | NCERT BIOLOGY SOLUTION |

Exercises

Page No: 277

1. Define vital capacity. What is its significance?

Answer
The maximum volume of air a person can breathe in after a forced expiration is called vital capacity. It helps in finding differentiate causes of lung disease.

2. State the volume of air remaining in the lungs after a normal breathing.

Answer
The volume of air remaining in the lungs after a normal breathing is called Functional residual capacity (FRC). This includes expiratory reserve volume (ERV) and residual volume (RV). ERV=1000 to 1100 ml
RV = 1100 to 1200 ml
Thus, FRC = 2100 to 2300 ml

3. Diffusion of gases occurs in the alveolar region only and not in the other parts of respiratory system. Why?

Answer

Alveoli are the primary sites of exchange of gases. Exchange of gases also occur between blood and tissues. O₂ and CO₂ are exchanged in these sites by simple diffusion mainly based on pressure/concentration gradient. Alveolar region is having enough pressure gradient to facilitate diffusion of gases while other regions of the respiratory system don’t have the required pressure gradient. Solubility of the gases as well as the thickness of the membranes involved in diffusion are also some important factors that can affect the rate of diffusion.

4. What are the major transport mechanisms for CO₂? Explain.

Answer
CO₂ is carried by haemoglobin as carbamino-haemoglobin (about 20-25 per cent). This binding is related to the partial pressure of CO₂ . pO₂is a major factor which could affect this binding. When pCO₂ is high and pO2 is low as in the tissues, more binding of carbon dioxide occurs whereas, when the pCO₂ is low and pO₂ is high as in the alveoli, dissociation of CO₂ from carbamino-haemoglobin takes place, i.e., CO₂ which is bound to haemoglobin from the tissues is delivered at the alveoli. RBCs contain a very high concentration of the enzyme, carbonic anhydrase and minute quantities of the same is present in the plasma too. This enzyme facilitates the following reaction in both directions.

At the tissue site where partial pressure of CO₂ is high due to catabolism, CO₂ diffuses into blood (RBCs and plasma) and forms HCO₃^– and H⁺, . At the alveolar site where pCO₂ is low, the reaction proceeds in the opposite direction leading to the formation of CO₂ and H₂O. Thus, CO₂ trapped as bicarbonate at the tissue level and transported to the alveoli is released out as CO₂ as shown in above figure. Every 100 ml of deoxygenated blood delivers approximately 4 ml of CO₂ to the alveoli.

5. What will be the pO₂ and pCO₂ in the atmospheric air compared to those in the alveolar air?
(i) pO₂ lesser, pCO₂ higher
(ii) pO₂ higher, pCO₂ lesser

(iii) pO₂ higher, pCO₂ higher
(iv) pO₂ lesser, pCO₂ lesser

Answer

(ii) pO₂ higher, pCO₂ lesser

6. Explain the process of inspiration under normal conditions.

Answer
Inspiration is initiated by the contraction of diaphragm which increases the volume of thoracic chamber in the antero-posterior axis. The contraction of external inter-costal muscles lifts up the ribs and the sternum causing an increase in the volume of the thoracic chamber in the dorso-ventral axis. The overall increase in the thoracic volume causes a similar increase in pulmonary volume. An increase in pulmonary volume decreases the intra-pulmonary pressure to less than the atmospheric pressure. This pressure gradient forces the air from outside to move into the lungs and inspiration takes place.

7. How is respiration regulated?

Answer

The respiration is regulated bu neural system. A specialised centre present in the medulla region of the brain called respiratory rhythm centre is primarily responsible for this regulation. Another centre present in the pons region of the brain called pneumotaxic centre can moderate the functions of the respiratory rhythm centre. Neural signal from this centre can reduce the duration of inspiration and thereby alter the respiratory rate. A chemosensitive area is situated adjacent to the rhythm centre which is highly sensitive to CO₂and hydrogen ions. Increase in these substances can activate this centre, which in turn can signal the rhythm centre to make necessary adjustments in the respiratory process by which these substances can be eliminated. Receptors associated with aortic arch and carotid artery also can recognise changes in CO₂ and H⁺ concentration and send necessary signals to the rhythm centre for remedial actions. The role of oxygen in the regulation of respiratory rhythm is quite insignificant.

8. What is the effect of pCO₂ on oxygen transport?

Answer

pCO₂ plays a major role in transportation of oxygen. In the alveoli, the low pCO₂ and high pO₂ favours the formation of haemoglobin. In the tissues, the high pCO₂ and low pO₂favours the dissociation of oxygen from oxyhaemoglobin. Hence, the affinity of haemoglobin for oxygen is enhanced by the decrease of pCO₂ in blood. Therefore, oxygen is transported in blood as oxyhaemoglobin and oxygen dissociates from it at the tissues.

9. What happens to the respiratory process in a man going up a hill?

Answer

When a man going up a hill he has to exert more effort to climb which increases the consumption of oxygen. As a result, the partial pressure of oxygen in haemoglobin decreases which creates more demand for oxygen. Thus, the breathing rate increases to fill this gap.

10. What is the site of gaseous exchange in an insect?

Answer

Insects have a network of tubes known as tracheal tubes to transport atmospheric air within the body. The tracheae open on the lateral surface of the animal through minute pores called spiracles.

11. Define oxygen dissociation curve. Can you suggest any reason for its sigmoidal pattern?

Answer

When percentage saturation of haemoglobin with O₂ is plotted against the pO₂ a sigmoid curve is obtained which is called Oxygen dissociation curve.

The dissociation curve is sigmoidal pattern because of the binding of oxygen to haemoglobin. As the first oxygen molecule binds to haemoglobin, it increases the affinity for the second molecule of oxygen to bind. Subsequently, haemoglobin attracts more oxygen.

12. Have you heard about hypoxia? Try to gather information about it, and discuss with your friends.

Answer

Hypoxia is defined as a condition of the body in which the tissue have shortage of oxygen. It generally happens because of a mismatch between oxygen demand and supply.

13. Distinguish between
(a) IRV and ERV
(b) Inspiratory capacity and Expiratory capacity
(c) Vital capacity and Total lung capacity

Answer

(a) IRV and ERV

Inspiratory reserve volume(IRV)	Expiratory reserve volume (ERV)
It is the maximum volume of air that can be inhaled after a normal inspiration.	It is the maximum volume of air that can be exhaled after a normal expiration.
It is about 2500-3500 mL in the human lungs.	It is about 1000-1100 mL in the human lungs.

(b) Inspiratory capacity and Expiratory capacity

Inspiratory capacity (IC)	Expiratory capacity (EC)
It is the volume of air that can be inhaled after a normal expiration.	It is the volume of air that can be exhaled after a normal inspiration.
It includes tidal volume and inspiratory reserve volume. (IC = TV + IRV)	It includes tidal volume and expiratory reserve volume. (EC = TV + ERV)

Vital capacity (VC)	Total lung capacity (TLC)
It is the maximum volume of air that can be exhaled after a maximum inspiration.	It is the volume of air in the lungs after maximum inspiration. It includes IC, ERV, and residual volume.
It includes IC and ERV	It includes IC, ERV, and residual volume.
It is about 4000 mL in the human lungs.	It is about 5000-6000 mL in the human lungs.

14. What is Tidal volume? Find out the Tidal volume (approximate value) for a healthy human in an hour.

Answer

Tidal volume is the volume of air inspired or expired during normal respiration. It is approximately 500 ml in a healthy man.

The hourly tidal volume for a healthy human (taking 12 breathes/min) can be calculated as:

= 500 ml × 12 × 60 minute = 360000 ml

Rohit0 comments

CLASS 11th CHAPTER -16 Digestion and Absorption |Biology | NCERT SOLUTION| EDUGROWN

NCERT Solutions for Class 11 Biology Chapter – 16 Digestion and Absorption includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -16 Digestion and Absorption. NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.

Class 11th Chapter -16 Digestion and Absorption | NCERT BIOLOGY SOLUTION |

Exercises

Page No: 267

1. Choose the correct answer among the following :

(a) Gastric juice contains
(i) pepsin, lipase and rennin
(ii) trypsin, lipase and rennin
(iii) trypsin, pepsin and lipase
(iv) trypsin, pepsin and renin
► (i) pepsin, lipase and rennin

(b) Succus entericus is the name given to
(i) a junction between ileum and large intestine
(ii) intestinal juice
(iii) swelling in the gut
(iv) appendix

► (ii) intestinal juice

2. Match column I with column II

Column I		Column II
(a)	Bilirubin and biliverdin	(i)	Parotid
(b)	Hydrolysis of starch	(ii)	Bile
(c)	Digestion of fat	(iii)	Lipases
(d)	Salivary gland	(iv)	Amylases

Answer

Column I		Column II
(a)	Bilirubin and biliverdin	(ii)	Bile
(b)	Hydrolysis of starch	(iv)	Amylases
(c)	Digestion of fat	(iii)	Lipases
(d)	Salivary gland	(i)	Parotid

3. Answer briefly:
(a) Why are villi present in the intestine and not in the stomach?
(b) How does pepsinogen change into its active form?
(c) What are the basic layers of the wall of alimentary canal?
(d) How does bile help in the digestion of fats?

Answer

(a) Villi are finger like structures that absorb the nutrients from digested food in the intestine. The main function of villi is to absorption of nutrients so they are present in small intestine as this is the place where absorption of food takes place. Villi is not present in stomach because the food is still yet to be broken down therefore, similar finger like structures called “rugae” is present which secrete pepsin and the gastric juices for the digestion to take place in the stomach.

(b) Pepsinogen changes into its active form by the action of hydrochloric acid.

• Serosa: It is the outermost layer and is made up of a thin mesothelium with some connective tissues.

• Muscularis: It is a thin layer of smooth muscles which are usually arranged into an inner circular and outer longitudinal layer.

• Sub-mucosa: It is a layer of loose connective tissues, containing nerves, blood, and lymph vessels which supports mucosa.

• Mucosa: It is the innermost lining of the lumen of the alimentary canal which is mainly involved in absorption and secretion.

(d) Bile helps in emulsification of fats and also activates lipases. Therefore, bile helps in digestion of fats.

4. State the role of pancreatic juice in digestion of proteins.

Answer

Pancreatic juice contains a variety of inactive enzymes such as trypsinogen, chymotrypsinogen, and carboxypeptidases which help in the digestion of proteins and the partially hydrolysed proteins, like proteoses and peptones, into dipeptides.

5. Describe the process of digestion of protein in stomach.

Answer

The food that enters the stomach becomes acidic on mixing with this gastric juice which is secreted by gastric glands present on the wall of stomach. The main components of gastric juice are hydrochloric acid, pepsinogen, mucus, and rennin. The inactive proenzyme, pepsinogen when acted upon by hydrochloric acid gets converted into active enzyme pepsin which coverts protein into proteoses and peptides.

Renin which is present in gastric juice of infants helps in the digestion of milk protein.

6. Give the dental formula of human beings.

Answer

The dental formula in humans is represented as I 2/2, C 1/1, PM 2/2, M 3/3 in which

I = Incisors

C = Canine

PM = Pre molar

M = Molar

Thus, the dental formula of human beings is 2123/2123.

7. Bile juice contains no digestive enzymes, yet it is important for digestion. Why?

Answer

Bile juice not contain any digestive enzymes yet it plays an important role in the digestion of fats. as it contains bile salts, bile pigments like bilirubin, biliverdin and phospholipids. Bile salts break down large fat globules into smaller globules so that the pancreatic enzymes can easily act on them. This process is known as emulsification of fats. It also makes the medium of food from acidic to alkaline and activates lipase.

8. Describe the digestive role of chymotrypsin. What two other digestive enzymes of the same category are secreted by its source gland?

Answer

Chymotrypsin is an active enzyme formed by the action of trypsin in the pancreatic juice. This helps in the digestion of proteins peptones and proteoses converting it into dipeptides.

The other two digestive enzyme secreted by its source gland is amylase and lipases.

9. How are polysaccharides and disaccharides digested?

Answer
The polysaccharides and disaccharides are partially digested by the amylase enzyme present in the pancreatic juice. The remaining digestion takes place by enzymes in the succus entericus. The enzyme maltase converts maltose into two molecules of glucose, lactase converts lactose into glucose and galactose, sucrase converts sucrose into glucose and fructose.

10. What would happen if HCl were not secreted in the stomach?

Answer

If HCl were not secreted in the stomach then it would affect protein digestion. The HCl secreted by glands present on stomach walls provides acidic medium to food. The acidic medium allows pepsinogen to be converted into pepsin. Pepsin plays an important role in the digestion of proteins. Therefore, if HCl were not secreted in the stomach, then pepsin would not be activated and affects its digestion.

11. How does butter in your food gets digested and absorbed in the body?

Answer

Digestion of butter

Butter is mainly composed of fat. Bile juice secreted by the liver contains bile salts break down large fat globules into smaller globules which increases the surface area for the action of lipase. This is known as emulsification of fats. After this, the pancreatic lipase present in the pancreatic juice and the intestinal lipase present in the intestinal juice hydrolyse the fat molecules into triglycerides, diglycerides, monoglycerides, and ultimately into fatty aicds and glycerol.

Absorption of butter

The ultimate products of fat i.e., fatty acids and glycerol is not water soluble so they can’t absorbed the blood directly. Therefore, they are first incorporated into small droplets called micelles and then transported into the villi of the intestinal mucosa. They are re-formed into very small protein coated fat globules called the chylomicrons which are transported into the lymph vessels in the villi. These lymph vessels ultimately release the absorbed substances into the blood stream.

12. Discuss the main steps in the digestion of proteins as the food passes through different parts of the alimentary canal.

Answer

The digestion of protein starts in stomach and completes in small intestine.

In stomach, active pepsin is formed by the action of HCl on inactive pepsinogen converts proteins into proteases and peptones.

In small intestine, the pancreatic juice contains inactive enzymes – trypsinogen, chymotrypsinogen and procarboxypeptidases in the inactive form. Trypsinogen is activated by an enzyme, enterokinase, secreted by the intestinal mucosa into active trypsin, which in turn activates the other enzymes in the pancreatic juice. Chymotrypsinogen and procarboxypeptidases get converted into chymotrypsin and carboxypeptidase in the presence of trypsin. Chymotrypsin converts the proteins into peptides, and carboxypeptidase further converts peptides into smaller peptide chains and amino acids.

13. Explain the term thecodont and diphyodont.

Answer

The type of attachment in which each tooth is embedded in a socket of jawbone is called thecodont.

Majority of mammals including human beings form two sets of teeth during their life, a set of temporary milk or deciduous teeth, replaced by a set of permanent or adult teeth. This type of dentition is called diphyodont.

14. Name different types of teeth and their number in an adult human.

Answer

Different types of teeth and their number in an adult human are:

→ Incisors: Total number is 8
→ Canine: Total number is 4

→ Premolars: Total number is 8

→ Molars: Total number is 12

15. What are the functions of liver?

Answer

The functions of liver are:

→ The liver secretes bile juice which helps in the digestion of fats.

→ It secretes an anticoagulant called heparin which prevent clotting of blood inside blood vessels.

→ It produces a protein, angiotensinogen, which helps the kidneys in maintaining body fluid osmoregulation.

→ It is an important place of lymph formation.

→ It produces red blood cells in the embryo.

→ It also helps in breakdown of insulin and other hormones, haemogloin, some toxic substances and conversion of ammonia into urea takes place in liver.

Priyanka0 comments

NCERT MCQ CLASS-9 CHAPTER-3 | ENGLISH NCERT MCQ| | MOMENTS IMPORTANT MCQ | | ISHWARAN THE STORY TELLER | EDUGROWN

In This Post we are providing Chapter-3 Iswaran the Story Teller NCERT MCQ for Class 9 English which will be beneficial for students. These solutions are updated according to 2021-22 syllabus. These MCQS can be really helpful in the preparation of Board exams and will provide you with a brief knowledge of the chapter.

NCERT MCQ ON ISHWARAN THE STORY TELLER

Question 1.
Which art helped Iswaran to bring down the beast ?
(a) boxing
(b) wrestling
(c) ju-jitsu
(d) yoga

Answer: (c) ju-jitsu

Question 2.
Where did the school boys hide themselves to see the mad elephant ?
(a) on trees
(b) in their houses
(c) in their classrooms
(d) in the Headmaster’s room

Answer: (c) in their classrooms

Question 3.
What happened to the elephant when Iswaran hit on the third toenail of the elephant ?
(a) grunted loudly and collapsed on the
(b) ran away from there ground
(c) caught Iswaran in his trunk and threw him
(d) made friendship with Iswaran away

Answer: (a) grunted loudly and collapsed on the ground

Question 4.
From where was Iswaran watching this incident
(a) from a room
(b)from the cupboard
(c) from a tree
(d) from the rooftop

Answer: (d) from the rooftop

Question 5.
Why did the people run helter-skelter in panic ?
(a) to see the tiger
(b) to see a giant
(c) to see a giant
(d) none of these

Answer: (b) to see the mad elephant

Question 6.
In Iswaran story from where the tusker escaped ?
(a) cage
(b) timber yard
(c) forest
(d) circus

Answer: (b) timber yard

Question 7.
What was the special feature of his stories ?
(a) light humor
(b) satire on system
(c) tragic ending
(d) suspense and a surprise ending

Answer: (d) suspense and a surprise ending

Question 8.
Iswaran had an amazing capacity. What was it ?
(a) falling down big trees
(b) producing vegetables and cooking ingredients
(c) telling lies
(d) cheat shopkeepers

Answer: (b) producing vegetables and cooking ingredients

Question 9.
What was Mahindra’s marital status ?
(a) married
(b) widower
(c) engaged and going to be married soon
(d) bachelor

Answer: (d) bachelor

Question 10.
Whom does Mahendra narrate the story of Iswaran.?
(a) Ganesh
(b) Iswaran
(c) R.K. Laxman
(d) none of these

Answer: (a) Ganesh

Question 11.
How did Iswaran say the elephant was revived?
(a) He said he gave the elephant an injection.
(b) He said he gave the elephant artificial respiration.
(c) He said a veterinary doctor was called there.
(d) He said a man from the zoo helped to revive the elephant.

Answer: (c) He said a veterinary doctor was called there.

Question 12.
Mahendra listened to Iswaran’s tales ………
(a) unattentively.
(b) We-uncritically.
(c) uneasily.
(d) unendingly.

Answer: (b) We-uncritically.

Question 13.
What kind of books did Iswaran usually read ?
(a) Some popular Tamil religious book.
(b) Some popular Tamil love story.
(c) Some popular Tamil thriller.
(d) Some popular Tamil folk songs.

Answer: (c) Some popular Tamil thriller.

Question 14.
What would Iswaran do after Mahendra had left ?
(a) Tidy up the shed.
(b) Wash the clothes.
(c) Have a leisurely bath.
(d) All the above

Answer: (d) All the above.

Question 15.
When would Mahendra leave for his work ?
(a) Very early in the morning.
(b) After breakfast.
(c) After lunch.
(d) After sunset.

Answer: (b) After breakfast.

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