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Gravitation

Class 9th Science Bihar Board Solution
In Text Questions-pg-134
  1. State the universal law of gravitation.
  2. Write the formula to find the magnitude of the gravitational force between the earth and…
In Text Questions-pg-136
  1. What do you mean by free fall?
  2. What do you mean by acceleration due to gravity?
In Text Questions-pg-138
  1. Why is the weight of an object on the moon 1/6th of its weight on the earth?…
In Text Questions-pg-141
  1. Why is it difficult to hold a school bag having a strap made of a thin and strong string?…
  2. What do you mean by buoyancy?
  3. Why does an object float or sink when placed on the surface of water?…
In Text Questions-pg-142
  1. You find your mass to be 42 kg on a weighing machine. Is your mass more or less than 42…
  2. You have a bag of cotton and an iron bar, each indicating a mass of 100 kg when measured…
Exercise-pg-143
  1. How does the force of gravitation between two objects change when the distance between…
  2. Gravitational force acts on all objects in proportion to their masses. Why then, a heavy…
  3. What is the magnitude of the gravitational force between the earth and a 1 kg object on…
  4. The earth and the moon are attracted to each other by gravitational force. Does the earth…
  5. If the moon attracts the earth, why does the earth not move towards the moon?…
  6. What happens to the force between two objects, if: (i) The mass of one object is doubled?…
  7. What is the importance of the universal law of gravitation?
  8. What is the acceleration of free fall?
  9. What do we call the gravitational force between the earth and an object?…
  10. Amit buys few grams of gold at the poles as per the instructions of one of his friends. He…
  11. Why will sheet of paper fall slower than one that is crumpled into a ball?…
  12. Gravitational force on the surface of moon is only as strong as gravitational force on the…
  13. A ball is thrown vertically upwards with a velocity of 49 m/s. Calculate: (i) The maximum…
  14. A stone is released from the top of a tower of height 19.6 m. Calculate its final velocity…
  15. A stone is thrown vertically upward with an initial velocity of 40 m/s. Taking g = 10…
  16. Calculate the force of gravitation between the earth and the sun, given that the mass of…
  17. A stone is allowed to fall from the top of a tower 100 m high and at the same time another…
  18. A ball thrown up vertically returns to the thrower after 6 s, find: (a) The velocity with…
  19. In what direction does the buoyant force on an object immersed in a liquid act?…
  20. Why does a block f plastic released under water come up to the surface of water?…
  21. The volume of 50 g of a substance is 20 cm^3 . If the density of water is 1 g cm-3, will…

In Text Questions-pg-134
Question 1.

State the universal law of gravitation.


Answer:

Every object in the universe attracts other object by a force of attraction, called gravitation, which is directly proportional to the product of masses of the objects and inversely proportional to the square of distance between them. This is called Law of Gravitation or Universal Law of Gravitation.



Question 2.

Write the formula to find the magnitude of the gravitational force between the earth and an object on the surface of the earth.


Answer:

The formula to find the magnitude of the gravitational force between the earth and an object on the surface of the earth is:

Gravitational force, F = G ×


Where,


G = Gravitational constant


M = Mass of the earth


m = Mass of the object


And R is Radius of the earth




In Text Questions-pg-136
Question 1.

What do you mean by free fall?


Answer:

When an object falls from any height under the influence of gravitational force only, it is known as free fall. In the case of free fall no change of direction takes place but the magnitude of velocity changes because of acceleration. This acceleration acts because of the force of gravitation and is denoted by ‘g’.



Question 2.

What do you mean by acceleration due to gravity?


Answer:

The acceleration gained by an object because of gravitational force is called its acceleration due to gravity. Its SI unit is m/s 2. Acceleration due to gravity is a vector, which means it has both a magnitude and a direction. It has a standard value defined as 9.80665 m/s 2.




In Text Questions-pg-138
Question 1.

Why is the weight of an object on the moon 1/6th of its weight on the earth?


Answer:

Weight is the force with which a body is pulled towards the center of the earth or any other celestial body for that matter. The greater the force put by the celestial body, the greater the weight of an object on its surface.

The gravitational attraction depends upon the weight of the celestial body, since Earth has more weight compared to the moon. It is found that the gravitational acceleration is found to be 1.62 m-sec-2 while for Earth the force is 9.8 m-sec-2 which is 6 × gravitational acceleration of the moon.

As we know that:-

W(Weight)=M(mass) × g(gravitational acceleration)

Weight on the Earth WE = M × 9.8

Weight on the Moon WM = M ×1.62

Hence, the weight of an object on the moon is 1/6 the weight on the earth.



In Text Questions-pg-141
Question 1.

Why is it difficult to hold a school bag having a strap made of a thin and strong string?


Answer:

We know that lesser is the surface area of an object the more is the pressure it exerts. Hence, it is difficult to hold a school bag having a strap made of thin and strong string, because the thin string has very less contacting area in case of a school bag having a strap made of thin and strong string which increases pressure which is un comfortable to carry the school bag.



Question 2.

What do you mean by buoyancy?


Answer:

When an object is immersed partially or fully in a liquid, it experiences an upward force. This upward force is known as buoyant force and this phenomenon is known as buoyancy. Buoyancy is also known as up thrust.



Question 3.

Why does an object float or sink when placed on the surface of water?


Answer:

An object will float on the surface of water when it has density less than that of water because it always displaces more weight of water than its own weight, and as the buoyant force is more than its own weight, therefore it floats. On the other hand, an object sinks in water when it has density more than that of water because it always displaces less weight of water than its own weight, and as the buoyant force is less than its own weight, it sinks in water.




In Text Questions-pg-142
Question 1.

You find your mass to be 42 kg on a weighing machine. Is your mass more or less than 42 kg?


Answer:

Weight is the gravitational force acting on the object in the downward direction. According to the rule of buoyancy, all fluids apply an up thrust force in the upward direction. Hence, the air exerts an upward force (buoyant force or up thrust) on our body and makes us slightly lighter than we actually are. So the weight shown on the weighing scale would be less than 42 kg .Thus we can say that our actual weight / mass will be slightly more.



Question 2.

You have a bag of cotton and an iron bar, each indicating a mass of 100 kg when measured on a weighing machine. In reality, one is heavier than the other. Can you say which one is heavier and why?


Answer:

We know that,

Measured weight of the body = Actual weight of the body - Buoyant force


Therefore,


Actual weight = Measured weight + Buoyant force


As measured weight of cotton and iron is same, actual weight will only depend on the buoyant force.


Buoyant force is given by:


B = Volume of the body × g × Density of air.


Buoyant force is directly proportional to the volume of the body.


As volume of iron is less than the volume of cotton, therefore buoyant force acting on the iron will be less than that of iron.


Hence, actual weight of the cotton will be more than the iron.




Exercise-pg-143
Question 1.

How does the force of gravitation between two objects change when the distance between them is reduced to half?


Answer:

The force between two objects of masses m1 and m2 separated by a distance "r" is given by:

Now according to question,

New distance R' = R/2
So, new force between them F'

The force has become 4× initial Force .. Ans


Question 2.

Gravitational force acts on all objects in proportion to their masses. Why then, a heavy object does not fall faster than a light object?


Answer:

Gravitational force acts on all objects in proportion to their masses. But a heavy object does not fall faster than a light object. This is because of the reason that Acceleration= Force/Mass or Force = Acceleration x MassAs force is directly proportional to mass, acceleration is constant for a body of any mass.


Question 3.

What is the magnitude of the gravitational force between the earth and a 1 kg object on its surface? (Mass of the earth is 6×1024 kg and radius of the earth is 6.4 × 106 m).


Answer:

Firstly, we will calculate the magnitude of gravitational force by using the formula:

F = G×(i)


We know that,


Gravitational constant, G = 6.7 × 10-11 Nm2/kg2


Given,


Mass of earth, m1 = 6.4 × 1024 kg


Mass of object, m2 = 1kg


Distance between centre of earth and object=Radius of earth, r = 6.4× 106 m


Putting all the values in (i), we get:


F = = 9.8144 N


Therefore, the magnitude of gravitational force is 9.8144 N


Question 4.

The earth and the moon are attracted to each other by gravitational force. Does the earth attract the moon with a force that is greater or smaller or the same as the force with which the moon attracts the earth?


Answer:

Yes the moon do attracts the earth but the earth also attracts the moon.In gravitational force earth and moon are attract with each other and but there masses are different so earth pull the moon but they have same gravitational force between them The gravitational pull of earth is higher than mass of the moon. Hence, the attraction exerted by the moon on the earth becomes negligible.


Question 5.

If the moon attracts the earth, why does the earth not move towards the moon?


Answer:

The Earth and the moon experience equal gravitational forces from each other. However, the mass of the Earth is much larger than the mass of the moon. Hence, it accelerates at a rate lesser than the acceleration rate of the moon towards the Earth. For this reason, the Earth does not move towards the moon.



Question 6.

What happens to the force between two objects, if:

(i) The mass of one object is doubled?

(ii) The distance between the objects is (a) doubled, (b) tripled?

(iii) The masses of both objects are doubled


Answer:

We know that Gravitational force,

F = GMm/r 2


(i) When the mass of 1 object is doubled


F' = G (2M) m/r 2


F' = 2GMm/r 2


F' = 2F, the force will become 2 times.


(ii) (a)Distance between two objects is doubled


F' = GMm/(2r) 2


F' = GMm/4r 2


F' = 1/4 F, the force will become 1/4 times


(b) Distance between two objects is tripled


F' = GMm/(3r) 2


F' = GMm/9r 2


F' = 1/9F, the force will become 1/9 times


(iii) When masses of both objects is doubled


F' = G (2M)(2m)/r 2


F' = 4GMm/r 2


F' = 4F, the force will become 4 times.



Question 7.

What is the importance of the universal law of gravitation?


Answer:

The importance of universal law of gravitation is that it explains:

(i) The gravitational force of attraction of the Earth binds all terrestrial objects to the earth.


(ii) The gravitational force of earth keeps the atmosphere close to earth.


(iii) The moon revolves around the earth.


(iv) The gravitational pull of the sun on the planet keeps them revolving around the sun.


(v) The tides formed by the rising & falling of water level in the oceans are due to the gravitational force of sun & moon on the water.



Question 8.

What is the acceleration of free fall?


Answer:

As, the only force which is acting on body on free fall is Gravity.

Hence, its acceleration will also be relative to gravity.


If gravity is the only force acting on an object, then we find the object will accelerate at a rate of 9.8m/s 2 down toward the centre of the Earth (this is often rounded to 10m/s)


In fact, all objects will fall at this rate if the air does not act to slow them down.



Question 9.

What do we call the gravitational force between the earth and an object?


Answer:

The Gravitational force between the earth and an object is called ‘earth’s gravity’.

Gravity is the force that attracts a body towards the centre of the earth, or towards any other physical body having mass.



Question 10.

Amit buys few grams of gold at the poles as per the instructions of one of his friends. He hands over the same when he meets him at the equator. Will his friend agree with the weight of gold bought? If not, why? (Hint. The value of g is greater at the poles than at the equator).


Answer:

Weight of a body on the Earth is given by:

W = mg


Where,


m = Mass of the body


g = Acceleration due to gravity


The value of g is greater at poles than at the equator. Therefore, gold at the equator weighs less than at the poles. Hence, Amit’s friend will not agree with the weight of the gold bought.



Question 11.

Why will sheet of paper fall slower than one that is crumpled into a ball?


Answer:

Sheet of paper will fall slower because due to larger​ surface area the amount of upward Gravitational force causes resistance to its movement. The air resistance would make the actual force lesser than that imparted by the gravity of earth and hence slowing down the speed of sheet of paper.



Question 12.

Gravitational force on the surface of moon is only as strong as gravitational force on the earth. What is the weight in Newton’s of a 10 kg object on the moon and on the earth?


Answer:

We know that,

Acceleration due to gravity on the surface of earth = 9.8 m/s2


So, the acceleration due to gravity on the surface of moon will be of this value.


= 9.8 × m/s2


Firstly, we will calculate the weight on the moon:


Mass of objects, m = 10 kg


Acceleration due to gravity on moon, g = 9.8 × m/s2


Weight of object (on moon), W = m × g


= 10 × 9.8 ×


= 16.3 N


Now, we will calculate the weight of the object on the earth surface:


Mass of object, m = 10 kg


Acceleration due to gravity on earth, g = 9.8 m/s2


Weight of object (on earth), W = m × g


= 10 × 9.8


= 98 N



Question 13.

A ball is thrown vertically upwards with a velocity of 49 m/s. Calculate:

(i) The maximum height to which it rises.

(ii) The total time it takes to return to the surface of the earth.


Answer:

(i) The value of acceleration due to gravity g will be taken as negative as the ball is going upwards.

Given,


Initial velocity of ball, u = 49 m/s


Final velocity of ball, v = 0 (As the ball stops at top)


Acceleration due to gravity, g = - 9.8 m/s2


Height, h =?


We know that,


v2 = u2 + 2gh


(0)2 = (49)2 + 2 × (-9.8) × h


0 = 2401 – 19.6 h


19.6 h = 2401


h =


= 122.5 m


(ii) Now, we will calculate the time taken by the ball to reach at the highest point:


Given,


Final velocity, v = 0 (As the ball stops at top)


Initial velocity, u = 49 m/s


Acceleration due to gravity, g = - 9.8 m/s2


Time taken, t =?


0 = 49 + (-9.8) × t


0 = 49 – 9.8 t


9.8 t = 49


t =


t = 5 s


The ball will take equal time to return to the surface of earth.


Therefore, Total time = 5 + 5


= 10 seconds



Question 14.

A stone is released from the top of a tower of height 19.6 m. Calculate its final velocity just before touching the ground.


Answer:

Given,

Initial velocity, u = 0


Final velocity, v =?


Acceleration due to gravity, g = 9.8 m/s2


Height, h = 19.6 m


We know that,


v2 = u2 + 2gh


= (0)2 + 2 × 9.8 × 19.6


= 19.6 × 19.6


= (19.6)2


= 19.6 m/s


Therefore, its final velocity just before touching the ground is 19.6 m/s.



Question 15.

A stone is thrown vertically upward with an initial velocity of 40 m/s. Taking g = 10 m/s2, find the maximum height reached by the stone. What is the net displacement and the total distance covered by the stone when it falls back to the ground?


Answer:

Given,

Initial velocity, u = 40 m/s


Final velocity, v = 0 (As the stone stops)


Acceleration due to gravity, g = - 10 m/s2


Height, h =?


v2 = u2 + 2gh


(0)2 = (40)2 + 2 (-10) × h


0 = 1600 – 20 h


20 h = 1600


h =


h = 80 m


The maximum height to which stone is thrown up is 80 m.


As, the stone is thrown up from the ground and after reaching to a maximum height of 80m it falls back to the ground. Therefore, the net displacement of the stone is zero.


The distance covered by the stone in reaching the maximum height is 80 m.


The stone will cover the same distance of 80 m in coming back to ground.


So, the total distance covered by the stone = 80 + 80


= 160 m



Question 16.

Calculate the force of gravitation between the earth and the sun, given that the mass of the earth = 6× 1024 kg and of the sun = 2 × 1030 kg. The average distance between the two is 1.5 × 1011 m.


Answer:

We know that, Gravitational force acting between two object is given by:

F = G× ...........(1)

where,

G is the Gravitational constant = 6.7 × 10-11 Nm2/kg2


m1 is the Mass of earth = 6 × 1024 kg


m2 is the Mass of sun, m2 = 2 × 1030 kg


r is the distance between the earth and the sun= 1.5 × 1011 m


Now, putting all these values in equation 1, we get:


F =


F = 3.57 × 1022 N

The Force exerted on the Earth by the sun is 3.5 × 1022 N


Question 17.

A stone is allowed to fall from the top of a tower 100 m high and at the same time another stone is projected vertically upwards from the ground with a velocity of 25 m/s. Calculate when and where the two stones will meet.


Answer:


According to Figure the height of tower is 100m, Assuming the two stones meet at point P which is at a height x from the ground, from this we get that distance between Point P and the top of tower is (100-x)

(i)Firstly, for the stone falling from top of tower:

Height, h = (100 - x)

Initial velocity, u = 0

Time, t =?

g = 10 m/s2 (As the stone is falling down)

We know that,


Putting the values in above equation

(100 – x) = 0 × t +1/2× 10 × t2

(100 - x) = 5t2 (i)

(ii)Now, for stone projected vertically upwards:

Height, h = x

Initial velocity, u = 25 m/s

Time, t =?

g = -10 m/s2 (As the stone is going up)


We know that,



Putting the values in above equation

x= 25×t+1/2×(-10)×t2

x = 25t – 5t2 (ii)


Now, by adding (i) and (ii), we get:


100 – x + x = 5t2 + 25 t – 5t2

100 = 25 t

t =

t = 4 s

Therefore, the 2 stones will meet after a time of 4 seconds.

Now, putting the value of t in (i), we get:

100 – x = 5× (4)2

100 – x = 5× 16

100 – x = 80

100 – 80 = x

x = 20m

Therefore, the two stones will meet at a height of 20 m above the ground after 4 seconds


Question 18.

A ball thrown up vertically returns to the thrower after 6 s, find:

(a) The velocity with which it was thrown up,

(b) The maximum height it reaches, and

(c) Its position after 4 s.


Answer:

Since the ball thrown up vertically returns to the thrower in 6 seconds, this means that the ball will take half of this time.

= 3 s


(a) Given,


Final velocity, v = 0


Initial velocity, u =?


Acceleration due to gravity, g = -9.8 m/s2 (As the ball goes up)


Time taken, t = 3 s


We know that,


v = u + g × t


0 = u + (-9.8) × 3


0 = u – 29.4


u = 29.4 m/s


(b) Now, calculation of maximum height:


We know that, at maximum height velocity of object will be Zero

v(final velocity at max height)=0 m/s

u(initial velocity) = 29.4 m/s

g(acceleration due to gravity)=10 m/s2

using third equation of motion , we get

v2 = u2 + 2gh

(0)2 = (29.4)2 + 2 × (-9.8) × h


0 = 864.36 – 19.6 h


19.6 h = 864.36


h =


h = 44.1 m


(c) Finally, we have to calculate the position of ball after 4 seconds:


We know that, the ball will at max height when t=3 sec at t = 4 sec the ball has been falling for 1 sec from the max height

hence, t= 1 sec

u(initial velocity)=0 m/s

a(acceleration due to gravity) = 9.8 m/s2

h = 0×1+ ×9.8 × (1)2 (Because t = 1 s)

= 0 + 4.9 ×1

= 4.9 m
Hence, ball has been fallen 4.9 m from the max height

The height from the ground= maximum height - height object has fallen in 1 sec= 44.1- 4.9= 39.2 m above the ground



Question 19.

In what direction does the buoyant force on an object immersed in a liquid act?


Answer:

The buoyant force on an object immersed in a liquid acts in upward direction (i.e., opposite to weight of the object).

Or in other words we can say that the buoyant force on an object submerged in a fluid is caused by the pressure difference between the top and bottom of the object. To overcome the gravitational force, the buoyant force acts in the upward direction. The larger pressure at greater depth pushes upward on the object.



Question 20.

Why does a block f plastic released under water come up to the surface of water?


Answer:

The density of plastic is less than that of water, so the force of buoyancy on plastic block will be greater than the weight of plastic block displaced. Hence, the acceleration of plastic block will be in upward direction, and comes up to the surface of water.



Question 21.

The volume of 50 g of a substance is 20 cm3. If the density of water is 1 g cm-3, will the substance float or sink?


Answer:

Given,

Mass of substance = 50 g


Volume of substance = 20 cm3


We know that,


Density of substance =


=


= 2.5 g cm-3



The density of the substance is more than that of water( 1g cm-3) as a result of which the substance will sink in water.