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NCERT Solutions Class 11 Biology Chapter 21 Neural Control and Coordination is a great way of learning all the tough concepts of biology. Our NCERT solutions are an amazing way to study the basic concepts of biology and also for the preparation of tough competitive exams like JEE Mains, NTSE, JEE Advanced, and Olympiad.

In NCERT Solutions Class 11 we have prepared the solutions for all the queries a student might encounter. We have discussed every concept thoroughly.

  • Neural Control and Coordination – in our body the neural system and the endocrine system work together in a harmonized way and help us use our body organs in proper coordination.
  • Neural System – neural system or the nervous system is a highly complex part of a living organism that helps in transmitting signals all around the body. In the body of any living organism, the nervous system is majorly categorized into two different parts. The first one is called the central nervous system and the other one is called the peripheral nervous system.
    • Central nervous system (CNS) – the brain and the spinal cord make up the central nervous system.
    • Peripheral nervous system (PNS) – the peripheral nervous system is the part of the nervous system that is a set of long nerve cells which connect the central nervous system to other parts of the body.
  • Human Neural System – the human nervous system is the organized system of nerves that helps us respond to stimuli. The human nervous system consists of two main parts the central nervous system and the peripheral nervous system. The central nervous system (CNS) consists of two main parts:
    • Brain – the brain is a very complex organ that controls every organ of our body. It also controls our memories, emotions, unconscious thoughts, the feeling or act of touch, motor skills, vision, breathing, temperature, hunger, thirst, and every other big or small process of the body.
    • Spinal cord – spinal cord is connecting tissue that is connected to the brain at one end and the other part extends to the bottom of the spine. 
  • Neuron as Structural and Functional Unit of Neural System – neurons or the nerve cells which are the fundamental and functional unit of the human nervous system.

NCERT Solutions Class 11 Biology is very intuitive and made systematically to make it easy for the students to take command of tough concepts with ease.

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NCERT Solutions Class 11 Biology Chapter 21 Neural Control and Coordination

1. Briefly describe the structure of the following:

(a) Brain 

(b) Eye 

(c) Ear

Answer:

The structure is as follows:

(a) Structure of the brain

1. The brain is the central information processing organ of the body acting as the ‘command and control system’. It is protected in the skull.

2. It is covered by three membranes known as cranial meninges – the outer layer is the dura mater which is a fibrous and a tough membrane, the middle layer is the arachnoid, which is delicate and thin, the innermost layer is the pia mater which is an extension of the brain tissue. This layer is extremely vascular and supplied richly with blood

3. The three main regions of the brain are:

(i) Forebrain

(ii) Hindbrain

(iii) Midbrain

Forebrain – has three main parts – cerebrum, hypothalamus, thalamus

→Cerebrum forms the most important and major part of the entire brain. It is longitudinally segregated into halves by a deep cleft, each half is known as the cerebral hemisphere. Both these hemispheres are linked by the corpus callosum which is a tract of nerve fibers. The cerebral hemispheres are internally hollow and the walls of the cerebrum have an inner medulla and the outer cortex.

The cerebral cortex consists of cell bodies of neurons which imparts the grey appearance; hence it is referred to as grey matter. The grey matter has many grooves (sulci) and folds (gyri). Higher the number of convolutions, greater the intelligence.

The cerebral cortex consists of sensory areas, motor areas and association areas (neither motor nor sensory). These specific areas are responsible for the complex functions namely communication, memory and intersensory associations.

The cerebral medulla is made of axons of nerve fibers, imparts a white appearance, hence it is referred to as white matter. There a group of interrelated deep structures inside the cerebral hemispheres, namely the amygdala and hippocampus which results in the formation of a complicated structure known as the limbic system or the limbic lobe.

Role – The cerebrum is the centre of memory, intelligence, consciousness, voluntary actions and will power

→Thalamus

It is made up of grey matter and located superior to the midbrain.

Role – it relays motor and sensory impulses to the cerebrum and also controls the manifestation of emotions, comprehends heat, pain and cold.

→Hypothalamus

Located at the base of the thalamus, it consists of the optic chiasma. It is a point wherein the optic nerve fibers cross opposite sides. Behind this structure is the infundibulum, which is a greyish protuberance of the hypothalamus. It contains the pituitary gland.

Role – The hypothalamus has centres responsible in regulating temperature of the body, hemeostasis, blood pressure, centre to control appetite (hunger, sleep, fatigue, thirst, pleasure, anger and penance). The neurosecretory cells of the hypothalamus produce releasing factors or several hormones that are crucial in regulating the activities of the pituitary hormones. Along with the limbic system, the hypothalamus also plays a part in regulating the sexual behavior.

Midbrain

It consists of the cerebral peduncles and the corpora quadrigemina

→Cerebral Peduncles

They are fibrous thick tracts which connect the cerebrum and the cerebellum.

Role – Relay the sensory and the motor impulses between the hindbrain and the forebrain

→Corpora quadrigemina

The dorsal part of the brain has two pairs of solid lobes which are referred to as the corpora quadrigemina where one pair is referred to as the superior colliculi and the other pair is referred to as the inferior colliculi

Role – Corpora quadrigemina controls the visual reflexes and the movement of the eye and head. They also regulate auditory reflexes and movement of the head to identify and detect the source of sound.

Hindbrain

It consists of the cerebellum, pons varolii and medulla oblongata

→Cerebellum

Present behind the top part of the brain stem. The outer cerebellar cortex consists of grey matter and the inner cerebellar medulla consists of white matter. The cerebellum is connected with the medulla oblongata and the cerebrum through the fiber tracts of the white matter.

Role – It coordinates the balance of the body and the muscular activity. The impulse of the performing muscular activity is initiated in the cerebrum. It controls the voluntary movements originating in the cerebrum.

→Pons varolii

It is built of a thick bundle of white nerve fibers that is found above the medulla oblongata.

Role – Synchronizes between both the lobes of the cerebellum. It has the center to control breathing which is referred to as the pneumotaxic center.

→Medulla oblongata

It is conical in shape and is located at the skull’s base. It runs behind the brain as the spinal cord. Any injury to this site of the brain could be fatal.

Role – serves as a passage to conduct nerve impulses from the spinal cord to the brain. It controls all the activities of the internal organs, breathing and heartbeat.

(b) Structure of the Eye –

Human eye is embedded in a bony socket of the skull and they are spherical. The walls of the eye ball consist of three layers, namely – The inner neurosensory coat, the middle vascular coat and the outer fibrous coat.

Outer fibrous coat – it is a thick and tough covering protecting the eye ball and helping to maintain its form. It has two regions – cornea and sclera

Sclera – consists of a dense white fibrous connective tissue, where only the white eye is visible, the remaining major part is orbiting. The white of the eye is composed of collagen fibers.

Role – maintaining and protecting the shape of the eyeball.

Cornea – It is the non-vascular transparent part of the outer fibrous coat that is visible and is covered by a thin, transparent vascular layer of stratified epithelium known as the conjunctiva. It is in the continuation with the lining of the eyelids.

Role – The cornea refracts light which enters the eye and converges it into the lens.

Middle vascular coat – it consists of three regions, namely – choroid, ciliary body, and iris.

Choroid –

Highly vascular and made of loose fibrous connective tissue. It is in the continuation on the inner portion of the sclera. It finely layers over the posterior two-thirds of the eye ball and tends to turn thicker towards the front, imparting a bluish appearance. It consists of some pigmented cells.

Role – nourishes the retina supplying it with oxygen. The pigmented cells absorb excessive light to avoid reflection in the eye ball.

Ciliary body –

It is thick and forms the anterior part of the choroid. Comparatively, it is less pigmented and vascular and is composed of ciliary muscles and ciliary processes.

→Ciliary muscles – They are smooth muscles and are of two types – circular muscles and meridional muscles.

→Ciliary processes – the inner portion of the ciliary body has plenty of folds known as ciliary processes.

Role – secrete aqueous humour.

Iris – it is a fine, opaque and a pigmented structure, located at the junction of sclera and cornea. The color of the iris is imparted by the pigmented cells of the choroid. The color varies between black, dark-brown, blue or green. It consists of a pupil centrally, as an aperture. The iris consists of two types of smooth muscles – circular muscles and the radial muscles.

Role – iris controls the eye size and hence the amount of light that enters. When radial muscles contract, pupil enlarges in dim light. When circular muscles contract, the pupil diminishes in bright light

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Inner neurosensory coat –

The retina forms the innermost, neurosensory fine layer of the eyeball. The outer surface of retina is in contact with the choroid and the inner surface is in contact with the vitreous humor.

The external surface has four layers:

Pigmented layer – it is made up of single layer of cells containing dark-brown pigment.

The layer of photoreceptors – has two types of cells – rods and cones

Rods – it is rod-shaped and elongated containing a purplish-red protein pigment known as rhodopsin or visual purple. It contains vitamin A derivatives. Rods do not respond to colours and are sensitive to dim light. They provide vision in the dark, hence known as twilight vision or scotopic vision

Cones – these are sensitive to colors and bright lights, providing daylight or photopic vision. The pigment that is found in the cone cells is known as iodopsin. Three kinds of cone cells respond to green, red and blue light. Other colors are detected by the simultaneous trigger of cone cells of more than one kind. A sensation of white light is generated when all the three types of cells are simultaneously triggered.

Cone cells are insensitive to the dim light hence in the dark, colour cannot be recognized.

Layer of bipolar neurons, layer of ganglionic cells are the two layers. This layer contains the cell bodies of the ganglion cells which forms the optic nerve.

Blind spot – The optic nerve exits the brain, retinal blood vessels enter the brain at a point where the photoreceptor cells are absent, this is the blind spot.

Macula lutea – It is the yellowish pigmented spot that is present lateral to the blind spot. It is located exactly opposite the cornea’s centre. It has a pit located centrally known as the fovea which lacks in rods and blood vessels. It has only cone cells and is the area of most distinct vision.

Lens – It is elastic, transparent and biconvex in nature which is located just behind the iris. It is covered by a thin, elastic and transparent membrane known as the lens capsule. The lens is intact in its position due to the suspensory ligaments. These ligaments along with the lens segregates the eye ball into two chambers known as the aqueous chamber and the vitreous chamber.

Aqueous chamber – it is the space between the cornea and the lens containing a thin watery fluid known as aqueous humor.

Vitreous chamber – it is the space between the lens and the retina which is filled with a transparent gel known as vitreous humor.

Human eye is embedded in a bony socket of the skull and they are spherical. The walls of the eye ball consist of three layers, namely – The inner neurosensory coat, the middle vascular coat and the outer fibrous coat.

Outer fibrous coat – it is a thick and tough covering protecting the eye ball and helping to maintain its form. It has two regions – cornea and sclera

Sclera – consists of a dense white fibrous connective tissue, where only the white eye is visible, the remaining major part is orbiting. The white of the eye is composed of collagen fibers.

Role – maintaining and protecting the shape of the eyeball.

Cornea – It is the non-vascular transparent part of the outer fibrous coat that is visible and is covered by a thin, transparent vascular layer of stratified epithelium known as the conjunctiva. It is in the continuation with the lining of the eyelids.

Role – The cornea refracts light which enters the eye and converges it into the lens.

Middle vascular coat – it consists of three regions, namely – choroid, ciliary body, and iris.

Choroid –

Highly vascular and made of loose fibrous connective tissue. It is in the continuation on the inner portion of the sclera. It finely layers over the posterior two-thirds of the eye ball and tends to turn thicker towards the front, imparting a bluish appearance. It consists of some pigmented cells.

Role – nourishes the retina supplying it with oxygen. The pigmented cells absorb excessive light to avoid reflection in the eye ball.

Ciliary body –

It is thick and forms the anterior part of the choroid. Comparatively, it is less pigmented and vascular and is composed of ciliary muscles and ciliary processes.

→Ciliary muscles – They are smooth muscles and are of two types – circular muscles and meridional muscles.

→Ciliary processes – the inner portion of the ciliary body has plenty of folds known as ciliary processes.

Role – secrete aqueous humour.

Iris – it is a fine, opaque and a pigmented structure, located at the junction of sclera and cornea. The color of the iris is imparted by the pigmented cells of the choroid. The color varies between black, dark-brown, blue or green. It consists of a pupil centrally, as an aperture. The iris consists of two types of smooth muscles – circular muscles and the radial muscles.

Role – iris controls the eye size and hence the amount of light that enters. When radial muscles contract, pupil enlarges in dim light. When circular muscles contract, the pupil diminishes in bright light

Inner neurosensory coat –

The retina forms the innermost, neurosensory fine layer of the eyeball. The outer surface of retina is in contact with the choroid and the inner surface is in contact with the vitreous humor.

The external surface has four layers:

Pigmented layer – it is made up of single layer of cells containing dark-brown pigment.

The layer of photoreceptors – has two types of cells – rods and cones

Rods – it is rod-shaped and elongated containing a purplish-red protein pigment known as rhodopsin or visual purple. It contains vitamin A derivatives. Rods do not respond to colours and are sensitive to dim light. They provide vision in the dark, hence known as twilight vision or scotopic vision

Cones – these are sensitive to colors and bright lights, providing daylight or photopic vision. The pigment that is found in the cone cells is known as iodopsin. Three kinds of cone cells respond to green, red and blue light. Other colors are detected by the simultaneous trigger of cone cells of more than one kind. A sensation of white light is generated when all the three types of cells are simultaneously triggered.

Cone cells are insensitive to the dim light hence in the dark, colour cannot be recognized.

Layer of bipolar neurons, layer of ganglionic cells are the two layers. This layer contains the cell bodies of the ganglion cells which forms the optic nerve.

Blind spot – The optic nerve exits the brain, retinal blood vessels enter the brain at a point where the photoreceptor cells are absent, this is the blind spot.

Macula lutea – It is the yellowish pigmented spot that is present lateral to the blind spot. It is located exactly opposite the cornea’s centre. It has a pit located centrally known as the fovea which lacks in rods and blood vessels. It has only cone cells and is the area of most distinct vision.

Lens – It is elastic, transparent and biconvex in nature which is located just behind the iris. It is covered by a thin, elastic and transparent membrane known as the lens capsule. The lens is intact in its position due to the suspensory ligaments. These ligaments along with the lens segregates the eye ball into two chambers known as the aqueous chamber and the vitreous chamber.

Aqueous chamber – it is the space between the cornea and the lens containing a thin watery fluid known as aqueous humor.

Vitreous chamber – it is the space between the lens and the retina which is filled with a transparent gel known as vitreous humor.

(c) Structure of the Ear –

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The human ear has two sensory functions – enables hearing and maintains the balance of the body. It can be divided into three main sections – inner ear, outer ear, middle ear.

→Inner ear – also known as the labyrinth, it is split into membranous labyrinth and the bony labyrinth. Membranous labyrinth is filled with endolymph while bony labyrinth is filled with perilymph.

The Membranous labyrinth is segregated into two portions – vestibular apparatus and the cochlea. The vestibular apparatus consists of three semi-circular canals and otolith. Each semi-circular canal lies in a different plane at right angles to each other. The membranous canals are suspended in the bony canals(perilymph). The base of the canals is swollen and is known as ampulla containing crista ampullars – a projecting ridge which has hair cells.

The utricle and the saccule have a projecting ridge known as macula. The macula and the crista are the particular receptors of the vestibular apparatus that has a role to play in maintaining the posture and body balance.

Sacculus has a coiled and long outgrowth – cochlea which is the chief hearing structure consisting of three membranes. A hearing organ, the organ of corti, is situated on the basilar membrane possessing hair cells.

→Outer ear – it has the pinna and the external auditory canal (meatus). The pinna gathers the vibrations in the air that generate sound. The external auditory canal extends up to the ear drum (tympanic membrane). It has very fine hair, wax-secreting glands in the skin of the meatus and the pinna. The tympanic membrane consists of connective tissues covered with mucous membrane inside and with skin on the outside.

→Middle ear – it consists of three ossicles known as the malleus, stapes and incus that are linked to one another in a chain pattern. The malleus is linked to the tympanic membrane and the stapes is linked to the oval window of the cochlea. The ear ossicles increase the efficiency of transmission of sound waves to the inner ear. The middle ear cavity is connected to the pharynx through the Eustachian tube which aids in equalizing the pressure on both sides of the ear drum.

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:

The comparison is as shown below:

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

Central neural system (CNS) Peripheral neural system (PNS)
Consists of the spinal cord and the brain It consists of the spinal nerves and the cranial nerves
Spinal column is protected by the vertebral column whereas the brain is protected by the skull No protective structures
No subdivisions It is divided into autonomic nervous system and the somatic nervous system
Processes information and regulates the responses to impulses. Nerves of PNS passes impulses to the CNS and responses from the CNS to various structures of the body
Group of neurons is known as nuclei Group of neurons is known as ganglia

(b) Resting potential and action potential 

Resting potential Action potential
When the neuron is at the resting phase, it is the potential difference across membrane When the neuron is triggered it is the potential difference across the membrane
The exterior side of the neuron is positively charged while the interior side is negatively charged The exterior side of the neuron is negatively charged and the interior side of the neuron is positively charged
Permeability of Kions are observed to be more by the plasma membrane of neurons Permeability of Naions are observed to be more by the plasma membrane of the neurons
To maintain the resting potential, the sodium-potassium ATPase pump is activated, sending Naions outside the neuron It functions in a reverse pattern wherein the sodium-potassium ATPase pump sends Naions to the neuron.

(c) Choroid and retina

Choroid Retina
Forms the mid coat of the eyeball Forms the inner coat of the eye ball
Forms the vascular layer of the eyeball Forms the neurosensory layer of the eyeball
Has no photoreceptor cells Has two kinds of photoreceptors – rods and cones
Prevents reflection of light in the eye and nourishes the retina Imparts vision

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) Polarisation of the membrane of a nerve fiber:

Impulse conduction through an axon

A nerve fiber is said to be in a polarized state when it is at a resting phase. In this polarized state, the membrane of the nerve fibers undergo a resting potential. Listed below are the steps that occur during the process of polarization of the membrane of a nerve fiber:

1. Initially, when a depolarized region of a nerve fiber becomes polarized, the count of Kions outside the nerve fibers is more while the axon membrane has an excessive number of Naions.

2. When the membrane starts to turn into a polarized state, it turns more permeable to the Kions and impermeable to the negatively charged proteins and the Na+ ions

3. The 2 Kions are passed to the axon by a sodium-potassium pump through active transport while the 3 Naions are passed outside the axon

4. The outer side turns electropositive while the inner side of the membrane turns electronegative due to the movement of potassium and sodium ions which causes the nerve fiber to be polarized.

(b) Depolarisation of the membrane of a nerve fibre

1. A nerve fiber is said to be in a depolarized state when it is triggered

2. In this state, action potential is experienced by the membrane of the nerve fiber

3. During the process of depolarization of the membrane of the nerve fiber, the following steps take place:

(i) Axon has more concentration of Kions in a polarized state and outside the axon, the Na+ concentration is more.

(ii) The permeability of the membranes of Na+ and Kions is reversed when the nerve fiber is triggered by the stimulus.

(iii) The permeability for Na+ ions by the membrane increases

(iv) A rapid influx of Na+ ions into the axon are observed

(v) Hence, the inner side of the membrane turns positively charged while the outer side of the membrane turns negatively charged

(vi) This causes depolarization of the membrane of the nerve fiber, resulting it to experience an action potential

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(c) Conduction of a nerve impulse along a nerve fibre

1. When a nerve impulse is conducted across the nerve fiber, it takes place in an organized manner

2. During the conduction of an impulse on the nerve fiber, a portion is depolarized always while the adjacent region is polarized. In order for the impulse to advance, repolarization of the depolarization area occurs while the polarized area depolarizes which continues across the entire length of the nerve fiber helping in the impulse conduction.

3. It takes place in the following stages:

(i) Let A be a site on the depolarized region, where the inner surface of the membrane is positively charged while the outer surface of the membrane is negatively charged

(ii) At site B, the adjacent region is polarized, where the outer surface is positively charged while the inner surface of the membrane is negatively charged

(iii) Therefore, the flow of current at site A is on the inner surface of the membrane from A to B and at the site B, the flow of current is on the outer surface from B to A. This completes the circuit of current flow.

(iv) This causes the site B to depolarize so as to conduct the impulse at site B

(v) Site A gets repolarized as soon as the impulse is conducted to site B

(vi) Assume a site C adjacent to site B which will be polarized when the site B is in a depolarized state.

(d) Transmission of a nerve impulse across a chemical synapse

1. The membranes of the pre-synaptic neuron and the post-synaptic neuron form a synapse

2. A synaptic cleft is a synapse which may or may not be segregated by a gap

3. The pre-synaptic neuron and the post-synaptic neuron at a chemical synapse are separated by the synaptic cleft

4. The calcium ions present at the synaptic cleft enters the synaptic knobs located at the axon terminal of the pre-synaptic neuron when an impulse reaches the axon terminal

5. The synaptic knobs have the synaptic vesicles of the pre-synaptic neuron which advance towards the plasma membrane to fuse with it

6. In the synaptic cleft, the vesicles release the neurotransmitter acetylcholine

7. The acetylcholine molecules tend to bind to the protein receptors located on the plasma membrane of the post-synaptic neurons

8. The binding opens up channels for sodium ions to enter the post-synaptic neuron. Simultaneously, the potassium ions exit the post-synaptic membrane

9. This causes an action potential in the post-synaptic neuron membrane. Thus, the impulse is conveyed to the post-synaptic neuron.

4. Draw labelled diagrams of the following:

(a) Neuron 

(b) Brain 

(c) Eye 

(d) Ear

Answer:

The diagrams are as follows:

(a) Neuron

(b) Brain

(c) Eye

(d) Ear

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) Neural coordination : When higher animals respond to various stimuli, each response to a specific stimulus generally involves many organs (parts) of their bodies. Therefore, it is necessary that all the concerned organs (parts) of the body should work in a systematic manner to produce the response. The working together of various organs (parts) of the body of multicelullar organism in a proper manner to complement the functions of each other is called coordination. This is achieved by three overlapping processes of nervous system-sensory input, integration and motor output.

(b) Forebrain: It consists of: Olfactory lobes, the paired structures concerned with the sense of smell. Cerebrum which is the largest and most complex of all the parts of the human brain. It is divided by a cleft into left and right cerebral hemispheres which are connected by a large bundle of myelinated fibres the. corpus callosum. The outer cover of cerebral hemisphere is called cerebral cortex. It consists of sensory and motor areas. Hypothalamus region of forebrain contains centres which control body temperature, hunger and also contains group of neurosecretory cells.

(c) Midbrain: 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) Hindbrain: 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 of 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: Retina is the inner layer of an eye and it contains three layers of cells-from inside to outside – ganglion cells, bipolar cells and photoreceptor cells. There are two types of photoreceptor cells, namely, rods and cones. These cells contain the light-sensitive proteins called the photopigments. The daylight (photopic) vision and colour vision are functions of cones and the twilight (scotopic) vision is the function of the rods. The rods contain a purplish-red protein called the rhodopsin or visual purple, which contains a derivative of Vitamin A. In the human eye, there are three types of cones which possess their own characteristic photopigments that respond to red, green and blue lights. The sensations of different colours are produced by various combinations of these cones and their photopigments. When these cones are stimulated equally, a sensation of white light is produced.

(f) Ear ossicles : There is a small flexible chain of three small bones called as ear ossicles – the malleus (hammer shaped), the incus (anvil shaped) and the stapes (stirrup shaped) in the middle ear. Malleus is attached to the tympanic membrane on one side and incus on the other side. Incus in turn is connected with the stapes. Malleus is the largest ossicle, however stapes is the smallest ossicle.

(g) Cochlea : It is the main hearing organ which is connected with saccule. It is a spirally coiled tube that resembles a snail shell in appearance. It tapers from a broad base to an almost pointed apex.

(h) Organ of Corti: It 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) Synapse : It is the junction between the axon of one neuron and the dendrite or cyton of another neuron for transmission of nerve impulse.

6. Give a brief account of:

(a) Mechanism of synaptic transmission

(b) Mechanism of vision

(c) Mechanism of hearing

Answer:

(a) Mechanism of synaptic transmission:

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Synapses are the junctions where the nerve impulses are transmitted from one neuron to another. These are formed by the membranes of a pre-synaptic and a post-synaptic neuron, that may or may not be segregated by a gap known as the synaptic cleft. There are two types of synapses namely chemical synapses and electrical synapses.

The membranes of a pre-synaptic and a post-synaptic neuron at the electrical synapses are in close proximity so that electrical current can directly flow from one neuron to the other across these particular synapses. The transmission of an impulse across an electrical synapses is similar to conduction of an impulse along a single axon where the transmission is always quicker than that across a chemical synapse which is not commonly observed in the human body.

The membranes of a pre-synaptic and a post-synaptic neuron at the chemical synapses are segregated by a synaptic cleft (fluid-filled space). The chemicals known as neurotransmitters are involved in the impulse-transmission at these particular synapses.

(b) Mechanism of vision:

The passage of light rays is as follows – pupil, lens, aqueous humour, vitreous humour and finally retina. This light causes the dissociation of the photo-pigment rhodopsin to retinal and opsin. The structure of opsin is subjected to changes due to the dissociation of opsin from the retinal which generates an action potential in the cones and rods of the retina. Furthermore, the action potential is transmitted to the ganglion cells via the bipolar neurons and ultimately transmitted to the visual cortex of the brain through the optic nerve. Analysis of impulses take place at the visual cortex; responses are sent back in order to form images on the retina.

(c) Mechanism of hearing:

The pinna of the external ear collects sound waves which pass through the external auditory meatus all the way to the eardrum. This causes the eardrum to vibrate. These vibrations are passed from the eardrum to the malleus, incuse and stapes of the middle ear which causes an increase in the frequency of the vibrations. The vibrations furthermore are passed to the cochlea of the inner ear through the oval window. These vibrations in the endolymph of the cochlea cause vibrations to be induced in the basilar membrane, which inturn cause sensory hair of the organ of corti to vibrate.

The receptor hair cells force themselves against the tectorial membrane converting sound energy to a nerve impulse or action potential. This nerve impulse is transmitted to the auditory cortex of the brain, where the impulse is evaluated and analyzed causing the sound to be recognized.

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) Colour vision is imparted by the cone cells that are found in the retina of the eye. Cone cells are of three types which respond to red, green and blue light respectively. At different wavelengths of light, different cone cells get triggered. Simultaneous stimulation of more than one kind of cone cells, causes the other colours to be detected. A sensation of white light is observed when all the three types of cone cells are triggered at the same time. This is how colour is perceived.

(b) The part of the body that helps in maintaining the body balance is the crista ampullaris which is located in the three semicircular canals, the macula sacculi found in the saccule of the inner ear and the macular utriculi found in the utricle.

(c) Pupil is an aperture located in the centre of the iris. Light enters the eye through this aperture.

The iris has two types of muscles, namely the radial smooth muscles and circular smooth muscles that check the amount of light falling on the retina. The pupil diminishes in size when the smooth circular muscles contract in bright light. Therefore, less amount of light falls on the retina. The pupil widens, when the light is dim, due to the contraction of the radial smooth muscles such that enough light is incident 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) Role of Na+ in the generation of action potential

When a nerve fiber is triggered, the sodium channels of the neurilemma is open and activated. From the outside, the sodium ions diffuse to the intracellular fluid due to the electrochemical gradient that is established. The membrane gets charged negatively from outside as the potassium ions move out and positively charged from inside. The immediate change that occurs in the membrane is known as action potential causing the membrane to get depolarized.

(b) Mechanism of generation of light-induced impulse in the retina

Human eye consists of photo pigments known as retinal and opsin. These are dissociated when light induces bringing about a change in the structure of opsin, causing an action potential to generate in the bipolar neurons. These action potential or impulses are conveyed to the visual cortex of the brain by the optic nerves where these impulses are read to analyze, recognizing an erect image.

(c) Mechanism through which a sound produces a nerve impulse in the inner ear

Vibrations are received through the membrane layering the fenestra ovalis by the perilymph of the internal ear. From here (the perilymph), vibrations are conveyed to the scala vestibule of the cochlea and furthermore to the scala media via the Reissner’s membrane, triggering the sensory hair of the organ of corti, which is the organ of hearing. These hair cells receive impulse to carry it to the brain through the auditory nerve, where the sense of hearing is felt.

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:

Listed below are the differences:

(a) Myelinated and non-myelinated axons

Characteristics/Features Myelinated axons Non-myelinated axons
Myelin sheath Present Absent
Nodes of Ranvier Present Absent
Location Found in grey matter of the brain, autonomous nervous system, spinal cord Spinal cord, white matter of the brain, autonomous nervous system
Conduction of nerve impulse Node to node Smooth
Speed of impulse-conduction 50 times faster than non-myelinated axon Comparatively lower

 (b) Dendrites and axons

Dendrites Axons
Dendrites are short processes They are long processes
They carry impulse towards the cell body of the neuron They carry impulse away from the cell body to the neuron
They are branched, always Axons may or may not be branched
Nissl’s granules are found in neuroplasm
Nissl’s granules are absent in neuroplasm

(c) Rods and cones

Rods Cones
Sensitive to dim light Sensitive to bright light
Contains rhodopsin pigment Contains iodopsin pigment
Not involved in colour vision Crucial in imparting colour vision
Rods are of one kind only Three kinds of cones exist sensing – red, blue, green lights
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(d) Thalamus and Hypothalamus

Thalamus Hypothalamus
Consists of grey matter only Consists of white and grey matter
Does not secrete hormones Secretes several hormones that control the activity of pituitary gland
Located above the midbrain Located at the base of the thalamus
Has the centre for sensations namely – cold, pain, heat Has the centre for sensations namely – regulating body temperature, homeostasis, blood pressure

(e) Cerebrum and Cerebellum

Cerebrum Cerebellum
Brain is majorly covered by the cerebrum Second largest part of the brain after cerebrum
It is portion of forebrain It is part of hindbrain
It is divided into two cerebral hemispheres It is divided into three lobes namely – central vermis, two lateral cerebral hemispheres
It is the centre for intelligence and memory It is the centre for posture and body equilibrium

10. Answer the following:

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

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

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

Answer:

(a) The part of the ear that determines the pitch of a sound is cochlea

(b) The part of the human brain that is the most developed is the cerebrum

(c) The part of the central neural system that acts as a master clock is the 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

Answer:

The region of the vertebrate eye, where the optic nerve passes out of the retina, is called the

(c) Blind spot

The optic nerves exit the eye and the retinal blood vessels enter it at a point medial to and slightly above the posterior pole of the eye ball. Here, photoreceptor cells are absent and hence it is referred to as the blind spot.

12. Distinguish between:

(a) afferent neurons and efferent neurons

(b) impulse conduction in a myelinated nerve fibre and unmyelinated nerve fibre

(c) aqueous humor and vitreous humor

(d) blind spot and yellow spot

(e) cranial nerves and spinal nerves.

Answer:

The differences are as follows:

(a) Afferent neurons and efferent neurons

Afferent neurons Efferent neurons
Afferent neurons are sensory neurons Efferent neurons are motor neurons
Conduction of sensory impulses from the receptors towards the central nervous system Conduction of motor impulses from the central nervous system to the responsive or effector organs
Located in sense organs Found in the brain and the spinal cord

 (b) impulse conduction in a myelinated nerve fibre and unmyelinated nerve fibre

Impulse conduction in a myelinated nerve fibre Impulse conduction in an unmyelinated nerve fibre
Impulse is transmitted from node to node Impulse travels across the length of the nerve fiber
Speed of impulse-conduction is 50 times faster than non-myelinated axon Comparatively lower
Less amount of energy is expended during the transmission of an impulse Excess energy is expended during the transmission of an impulse

(c) aqueous humor and vitreous humor

Aqueous humor Vitreous humor
Found in the aqueous chamber between the cornea and lens Found in the vitreous chamber between the retina and lens
Produced by ciliary processes Produced by the retina of the eye
Has a jelly-like consistency Has a watery consistency
Provides support to the lens Renders support to the lens and retina

(d) Blind spot and yellow spot

Blind spot Yellow spot
It is a point on the retina where the optic nerve exits the eye while the retinal blood vessels enter the eye It is a point on the retina which is found exactly opposite to the center of the cornea
It does not contain photoreceptor cells It contains two kinds of photoreceptor cells – rods and cones
They are not sensitive to light They are light-sensitive
It is not functional in vision The yellow spot is the region that has the most distinct vision

(e) Cranial nerves and spinal nerves

Cranial nerves Spinal nerves
Human body has 12 pairs of cranial nerves We have 31 pairs of spinal nerves
Cranial nerves emerge from the brain and extend to other parts of the body They originate from the spinal cord, extending to other parts of the body
Cranial nerves can be mixed, motor or sensory Spinal nerves are mixed nerve

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