Frank ICSE Solutions

Frank ICSE Solutions for Class 9 Biology – The Skeletal System

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Frank ICSE Solutions for Class 9 Biology – The Skeletal System

PAGE NO:162

Solution 1:
Bones of skull, vertebral column, sternum and ribs.

Solution 2:
Longest bone – Femur
Smallest bone – Stapes of middle ear.

Solution 3:
There are seven cervical vertebrae. First vertebra is called atlas, second is axis while the rest are called typical cervical vertebrae.

Solution 4:
The skeletal system performs the following functions in an animal:

  1.  It provides a framework to support the body and gives a definite shape and form to the body.
  2.  It helps to protect some of the vital organs like heart, lungs, brain and spinal cord.
  3. It provides the base for attachment of muscles and several bones so as to make body movements possible.
  4. Bones act as storehouse of some minerals like calcium and phosphorus.
  5. Red bone marrow of long bones of limbs produces red blood cells and granulated white blood cells in their hollow cavities.

Solution 5:

  1. Axial skeleton
  2.  Appendicular skeleton

Solution 6:
The various parts of a human skeleton are:

  1. Axial skeleton: This consists of skull, vertebral column, sternum and ribs
  2. Appendicular skeleton: It consists of pectoral and pelvic girdles and bones of limbs.

Solution 7:
Frank ICSE Solutions for Class 9 Biology - The Skeletal System 1

Solution 8:
On the basis of position, endoskeleton is divided into two main parts:

 Axial skeleton: This consists of skull, vertebral column, sternum and ribs. Human skull has 22 bones of which 8 are present in the cranium and 14 on the face. Brain is present in the cavity called cranium. In the occipital region is an opening called foramen magnum through which spinal cord passes. Cranium has 8 bones which covers the brain from all sides.
 Facial bones: These bones form the face and protect the sensory organs present in the head. It has 14 bones.
Vertebral Column:
It makes the axis of the body and provides support like a pillar. Vertebral column is divided into following five parts:

  1.  Cervical Region. It has 7 cervical vertebrae. First vertebra is called atlas, second is axis and rest are called typical cervical vertebrae.
  2.  Thoracic Region. It has 12 thoracic vertebrae. Neural spine of these vertebrae is long and pointed, which provdes surface for muscle and attachment.
  3. Lumber Region. It has 5 lumber vertebrae.
  4.  Sacral Region. It has 5 sacral vertebrae which are permanently fused to each other. These are situated on both halves of pelvic and form a joint with pelvic girdle.
  5.  Caudal Region. It has 4 caudal vertebrae. These are also fused to form a triangular structure which is called coccyx.

Sternum and Ribs
Sternum is the bone at the mid-ventral line of the thorax to which most of the ribs are attached at their ventral ends. Ribs are formed by vertebral and sterna part. First seven pairs of ribs are called true ribs. These are joined on one side with sternum and on second side with thorax.
Appendicular skeleton: It consists of limbs, shoulder or pectoral girdle and hip or pelvic girdles and bones of limbs.

  1. Bones of the fore arm: Humerus, radius, Ulna, Carpals, Metacarpals, finger bones, etc.
  2.  Bones of hind limb: Femur, Tibia, Fibula, Tarsal, Metatarsal, etc.
  3.  Pectoral Girdle: In mammals, two halves of pectoral girdle are situated at equal distance from the ribs on the dorsal plane. Each of it is called shoulder bones. Each half of it made up of a triangular flat bone called scapula. From its outer side a projection arises called acromion and has a cavity called glenoid cavity.
  4.  Pelvic Girdle: It consists of two similar halves. In each, three bones are found, ilium, ischium and pubis. Pubis bones of both halves are joined and are called pubic sysmphysis. Ilium and ischium form acetabulum cavity in which head of femur articulates by forming ball and socket joint. A hollow space is found between pubis and ischium, which is called obdurate foramen, which provides passage for obturatry artery, vein and nerve.

Solution 9:
Frank ICSE Solutions for Class 9 Biology - The Skeletal System 2
Frank ICSE Solutions for Class 9 Biology - The Skeletal System 3

Solution 10:
Frank ICSE Solutions for Class 9 Biology - The Skeletal System 4

Solution 11:
Importance of pectoral girdle:

  1. It provides support to the anterior portion of the body.
  2.  Provides surface articulation of fore arms.
  3.  Provides surface for muscle attachment.
  4.  Provides protection to vital organs like heart and lungs.

Importance of pelvic girdle:

  1. Provides surface articulation of hind limbs.
  2. Provides surface for joining of muscles.
  3.  Provides protection to the uterus.
  4. Protects from shocks.

Solution 12:
The place of joining of two or more than two bones is called joint.

Solution 13:
Flexor is a muscle that causes bending of a limb or other part e.g. thigh muscle.
Extensor is the muscle that causes the straightening of a limb or other part. E.g. for extending the foot
Levator is the muscle that raises any part of the body.
Rotator is a muscle that rotates one part on another.

Solution 14:
Axial skeleton: This consists of skull, vertebral column, sternum and ribs. Human skull has 22 bones of which 8 are present in the cranium and 14 on the face. Brain is present in the cavity called cranium. In the occipital region is an opening called foramen magnum through which spinal cord passes. Cranium has 8 bones which covers the brain from all sides.
Facial bones: These bones form the face and protect the sensory organs present in the head. It has 14 bones.
Vertebral Column:
It makes the axis of the body and provides support like a pillar. Vertebral column is divided into following five parts:

  1. Cervical Region. It has 7 cervical vertebrae. First vertebra is called atlas, second is axis and rest are called typical cervical vertebrae.
  2. Thoracic Region. It has 12 thoracic vertebrae. Neural spine of these vertebrae is long and pointed, which provdes surface for muscle and attachment.
  3. Lumber Region. It has 5 lumber vertebrae.
  4.  Sacral Region. It has 5 sacral vertebrae which are permanently fused to each other. These are situated on both halves of pelvic and form a joint with pelvic girdle.
  5. Caudal Region. It has 4 caudal vertebrae. These are also fused to form a triangular structure which is called coccyx.

 Sternum and Ribs:
Sternum is the bone at the mid-ventral line of the thorax to which most of the ribs are attached at their ventral ends. Ribs are formed by vertebral and sterna part. First seven pairs of ribs are called true ribs. These are joined on one side with sternum and on second side with thorax.
 Appendicular skeleton: It consists of limbs, shoulder or pectoral girdle and hip or pelvic girdles and bones of limbs.

  1. Bones of the fore arm: Humerus, radius, Ulna, Carpals, Metacarpals, finger bones, etc.
  2.  Bones of hind limb: Femur, Tibia, Fibula, Tarsal, Metatarsal, etc.
  3. Pectoral Girdle: In mammals, two halves of pectoral girdle are situated at equal distance from the ribs on the dorsal plane. Each of it is called shoulder bones. Each half of it made up of a triangular flat bone called scapula. From its outer side a projection arises called acromion and has a cavity called glenoid cavity.
  4. Pelvic Girdle: It consists of two similar halves. In each, three bones are found, ilium, ischium and pubis. Pubis bones of both halves are joined and are called pubic sysmphysis. Ilium and ischium form acetabulum cavity in which head of femur articulates by forming ball and socket joint. A hollow space is found between pubis and ischium, which is called obdurate foramen, which provides passage for obturatry artery, vein and nerve.

Solution 15:
Forelimbs consists of one humerus (anterior arm bone), one radius and one ulna (posterior arm bones), 8 carpals (wrist bones), 5 metacarpals ( palm bones) and 14 phalanges (finger bones).
Hindlimb consists of one femur bone or thigh bone, one tibia and fibula which are bones of the leg, 8 tarsals (bones of ankle), 5 metatarsals (bones of feet), and 14 phalanges (bones of fingers).

Solution 16:
The three levers found in the human skeleton are:

  1. First order levers
  2. Second order levers
  3. Third order levers

Solution 17:

  1. Ball and socket joint
  2. Pivot joint

Solution 18:
In a ball and socket joint, the ball of one bone is fitted into the socket of another bone such that the ball can move in the socket. Such a joint always involves a long bone, which can move in all planes. This type of joint is found in pectoral girdle, glenoid cavity, femur and acetabulum of pelvic girdle.

Solution 19:
Forelimbs consists of one humerus (anterior arm bone), one radius and one ulna (posterior arm bones), 8 carpals (wrist bones), 5 metacarpals (palm bones) and 14 phalanges (finger bones).
Hind limb consists of one femur bone or thigh bone, one tibia and fibula which are bones of the leg, 8 tarsal (bones of ankle), 5 metatarsals (bones of feet), and 14 phalanges (bones of fingers).

Solution 20:
Biceps muscles first contract to bend the arm, following which the triceps muscles act to straighten the arm. Thus act in opposite ways and are antagonistic muscles, since they counteract each other’s action. The muscles of biceps are called flexor muscle while that of the triceps is the extensor muscle. This whole coordination of muscular action is under the nerve impulse and brain control.

Solution 21:
Muscles which counteract each other’s actions are known as antagonistic muscles. Biceps and triceps are two such muscles.

Solution 22:
Biceps cause bending of a limb or other part. Triceps cause straightening of a limb or other part.

Solution 23:
Striped, Unstriped and cardiac muscles.

Solution 24:

  1.  Synovial joint is a movable joint present between the adjoining bones which can move independently. The articulating surfaces of the two bones are covered with articular cartilage. The joint is covered with a synovial membrane which secretes synovial fluid for lubrication.
  2.  These are found in elbow joint, knee joint, femur and pelvic girdle, etc.
  3. The cartilages cover the ends of the adjoining bones. They function to absorb shock and reduce friction during movement.
  4. 1 and 5 -epiphyseal bone
    2- synovial cavity
    3- synovial fluid
    4- synovial membrane

Solution 25:

  1. (a)  Scapula;
  2. Shoulder joint;
  3.  Humerus;
  4. Bicep;
  5. Tricep;
  6. Radius;
  7. Tricep
  8. Elbow Joint;
  9. Ulna.

(b) Bicep muscles and triceps are antagonistic muscles.
(c) Bicep muscles.
(d) Shoulder bones.
(e) Ball and socket joint.

PAGE NO:163

Solution 26:

  1. (d) all the above
  2. (c) 24
  3. (b) 7
  4. (a) Parietals of skull
  5. (d) stapes
  6. (b) Cranium
  7. (c) It allows movement in all directions.

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Frank ICSE Solutions for Class 9 Biology – Structure and Function of Skin

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Frank ICSE Solutions for Class 9 Biology – Structure and Function of Skin

PAGE NO:169

Solution 1:
(a) Stratum corneum, transitional region, stratum germinativum
(b) Stratum germinativum
(c) Stratum corneum
(d) Dermis
(e) Sweat gland / sudoriferous gland
(f) Milk glands/ mammary glands
(g) Wax gland
(h) Epidermis
(i) Melanin

Solution 2:
(a) soles
(b) epidermis and dermis
(c) stratum corneum
(d) keratin
(e) mesoderm
(f) loose connective tissue
(g) sweat gland

Solution 3:
(a) True
(b) True
(c) True
(d) True
(e) False
(f) False

Solution 4:
(i) (a) stratum Malpighi
(ii) (d) palm
(iii) (b) stratum corneum
(iv) (b) dermis
(v) (b) dermis
(vi) (a) sweat gland
(vii) (c) constrict and the sweat glands are inactive

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Frank ICSE Solutions for Class 9 Biology – Respiratory System

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Frank ICSE Solutions for Class 9 Biology – Respiratory System

PAGE NO:176

Solution 1:
Respiration: It is a process of release of energy from food substances such as glucose and fats under the control of enzymes, to carry out life processes, by the living organisms.
Respiration is essential for life as energy produced during this process is utilized by the organisms to carry out various biological activities.

Solution 2:
Structure of nasal chamber:
The nasal chamber is divided into left and right chambers by nasal septum. Each chamber is divided into three regions –

  1. Vestibule: It is the anterior most part of nasal chambers bearing hairs which filters the dust particles.
  2. Respiratory region: It is rich in mucous glands and marked by nasal turbinates which traps the dust and humidify the air.
  3. Olfactory chamber: It is lined by olfactory epithelium which sense the smell.

Solution 3:
Turbinates: The respiratory region of nasal chamber is marked by three nasal turbinates.These are Ethmoturbinate, nasoturbinate and maxilloturbinates.
Function of turbinates: It increases the surface area, so that dust particles can be removed and air become humidified.

Solution 4:
Adam’s apple : It is a prominent elevation formed by the laminae of thyroid cartilage. It is more pronounced in male than female.

Solution 5:
Frank ICSE Solutions for Class 9 Biology - Respiratory System 1

Solution 6:
The function of lecithin film in the lungs is to decrease the surface tension and keeps the alveoli open.

Solution 7:
Frank ICSE Solutions for Class 9 Biology - Respiratory System 2

Solution 8:
Breathing: It is the physical process of taking in oxygen and giving out carbon dioxide.
The function of diaphragm: It helps in breathing by contracting and relaxing thereby increase and decrease the volume of thoracic cavity. During inspiration diaphragm flattens while during expiration it becomes dome – shaped

Solution 9:

  1. Cough Reflex: It is a type of reflex whose stimulus is any foreign particle which results from deep inspiration followed by strong expiration that forcefully expel the air through the mouth.
  2.  Sneeze Reflex: It is a type of reflex whose stimulus is in the nasal passage which causes spasmodic contraction of expiratory muscles that forecefully expel the air through the nasal passage.
  3.  Eupnea: Eupnea is a normal breathing.
  4.  Dyspnea: A condition in which breathing is painful.
  5. Apnea: A condition in which no breathing takes place.

Solution 10:
Internal respiration: It is the transport of oxygen in the blood from the lungs to the cells and the transport of carbon dioxide from the tissue cells into the blood and to the lungs.

Solution 11:
Respiratory quotient (RQ): It is the ratio of CO2 output to O2 uptake. It is denoted by R.
R = Rate of CO2 output / Rate of O2 uptake
RQ for carbohydrate = 1.00
RQ for fat = 0.70
RQ for protein = 0.85

Solution 12:
(i) Vestibule
(ii) Larynx
(iii) Alveoli
(iv) Lecithin
(v) Hyperpnea
(vi) Dyspnea
(vii) Apnea
(viii) Hypopnea
(ix) Thoracic cavity

Solution 13:
(i) Pleura
(ii) Eupnea
(iii) 500 cc
(iv) 0.70
(v) 38 ATP

Solution 14:

  1.  Larynx = To produce voice
  2. Alveoli = To increase the surface area for exchange of gases.
  3. Conchae = It is also called turbinate and its function is to increase the surface area so that the dust particles can be removed and air become humidified.
  4. Epiglottis = It closes the glottis during swallowing of food.
  5. Lecithin covering = It lowers the surface tension and keeps the alveoli open.
  6. Cartilaginous rings = It prevents the collapsing of trachea.

Solution 15:

  1.  Alveoli – Gaseous exchange
  2. Larynx – Sound production
  3. Thoracic cage – Breathing

PAGE NO:177

Solution 16:
Frank ICSE Solutions for Class 9 Biology - Respiratory System 3

Solution 17:
(i)(b) Pleural membrane
(ii)(b) Alveoli
(iii)(d) All the above
(iv)(d) shows no change
(v)(d) 3000 – 4500 ml
(vi)(d) 158 and 116 mm Hg

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Frank ICSE Solutions for Class 9 Physics – Sound: Production and Propagation of Sound

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Frank ICSE Solutions for Class 9 Physics – Sound: Production and Propagation of Sound

PAGE NO: 278
Solution 1:
Yes, Sound is form of energy.

Solution 2:
Sound is produced by the vibrating objects.

Solution 3:
No, sound cannot travel through vacuum.

Solution 4:
Yes, sound can propagate through solids and liquids.

Solution 5:
No, sound cannot be produced in vacuum. It needs a material medium.

Solution 6:
Speed of sound depends on the density, pressure, temperature, humidity and Wind.

Solution 7:
330m/s is the value of speed in air at N.T.P

Solution 8:
In water, speed of sound is 4.5 times more than that in air. And, in iron, the speed of sound is 15 times as fast in air.

Solution 9:
The speed of sound is more in the humid air as compared to dry air. Because, the air moisture decreases the density of air and speed of sound is inversely proportional to density of air. So, sound travels faster in humid air.

Solution 10:
Speed of sound does not depend on the amplitude and wavelength.

Solution 11:
The sound produced by the moving wheels of the train travels faster on the iron track than in the air. So, firstly sound produced because of railway track is heard and then heard in the air.

Solution 12:
The waves in the air causes sound . Through waves , energy get transferred from one place to another and hence the sound.

Solution 13:
The ratio of speed of light to the speed of sound is 9.1 x 105.

Solution 14:
Speed of sound in air is independent of variation of pressure.

Solution 15:
The speed of sound in air increases with increase in temperature because with increase in temperature, the density of air gases decreases and speed of air is inversely proportional to density of air.

Solution 16:
The diver will hear the sound first because the sound travels faster in water than in air.

Solution 17:
The simple experiment that a person can do to calculate the speed of sound in air is that a person stands at a known distance (d meter) from the cliff and fires a pistol and simultaneously start the stop watch. He stops the stop-watch as soon as he hears a echo. The distance travelled by the sound during the time (t) seconds is 2d.
So, speed of sound = distance travelled / time taken = 2d/t

Solution 18:

  • Moisture in Air: The speed of sound increase with increase in humidity because the moisture in air decrease the density of air and speed of air is inversely proportional to density of air. Hence , the sound travels faster in moist air.
  • Pressure in air: Speed of sound is independent of the air pressure.
  • The speed of sound increases with the increase in temperature of the gas.

Solution 19:
The distance of flash from the observer = speed in air x time taken for the first sound to reach 330 x 6 = 1980m

Solution 20:
Distance between boys = speed of sound x time taken to reach sound = 330 x 2.5 = 825m

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Frank ICSE Solutions for Class 9 Physics – Sound: Range of Hearing

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Frank ICSE Solutions for Class 9 Physics – Sound: Range of Hearing

PAGE NO: 284
Solution 1:
The frequency of sound is defined as the number of vibrations produced by the sound producing object per second.

Solution 2:
S.I unit of frequency is hertz.

Solution 3:
One hertz is defined as one vibration produced in one second by sound producing object.

Solution 4:
The audible range of frequency is 20Hz to 20KHz.

Solution 5:

  • Less than 20Hz – we cannot hear sound.
  • More than 20KHz – we cannot hear sound.

Solution 6:
No, the audible range of frequency does not vary from person to person and also with age of person.

Solution 7:
Sound having frequency less than 20Hz is called infrasonic sound. Sound having frequency greater than 20KHz is called ultrasonic sound.

Solution 8:
The energy carried by ultrasonic sound is very high.

Solution 9:
Applications of Ultrasonic sound

  • Ultrasonic sound is used to detect the flaws in metal castings of automobile tyres.
  • It is used in hospitals to detect defects in certain parts of body.

Solution 10:
Echocardiography is used to obtain the image of the heart by the used of ultrasonic waves.

Solution 11:
SONAR stands for Sound Navigation and Ranging. Sonar helps the oceanographers and ship captains to determine the depth of the ocean.

Solution 12:
Bats emit the high frequencies that range between 20 KHz to 75 KHz. The echoes from these sounds help in locating the obstacles in their path and to avoid them.

Solution 13:
The elephants and whales produce the sound of frequency less than 20Hz. (means infrasonic sounds)

Solution 14:
No, all animals does not have same range of audible frequencies.

Solution 15:
When the sound strike any object and reflect back, the hearing of reflected sound is called echo.

Solution 16:
Echolocation is defined as sending out sounds to judge the location, size and motion of objects from the returning echoes. The animals use this phenomenon to locate the obstacles in their path and avoid them so it helps them in navigation and to locate their prey.

Solution 17:
Three Important uses of echolocation:

  • It helps animals to communicate with each other. e.g dolphins use the echolocation to communicate with other dolphins.
  • It helps in navigation and to locate their prey.
  • It is used by them to hunt for the meal.

Solution 18:
A hearing aid is the device which increases the loudness and intensity of the incoming sound.

Solution 19:
The main components of hearing aid are microphone , amplifier and earphone.

Solution 20:
A ship sends ultrasonic waves downward in the ocean. When the sound waves reaches the ocean floor, they are reflected back to the ship . The time it takes for the signal to return is used to calculate the depth of submerged ship in the ocean.

Solution 21:
High Power, High Energy and good directionality are the properties of ultrasonic sounds which makes them useful.

Solution 22:

  • 10 Hz – Infrasonic sound.
  • 200 Hz – audible sound.
  • 2000 Hz – Audible sound.
  • 45 KHz – Ultrasonic sound

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