Monday, May 31, 2010

Force and Motion: Chapter 5: X Physics

Force:

Force is defined as “pull “ and “ push “ is called “ force “.

OR

“An agent which produces motion or-tends to produce motion, which stops motion or

tends to stop the motion of a body is called force.”

OR

“An agent which changes the state or tends to change the state of body is called

force.”

Newton’s first law of motion:

Introduction:

Newton’s law of motion explains the motion of body. Newton’s first law deals the state

of body.

Statement:

Newton’s first law of motion can be stated as:

“In the absence of an external force, a body in a state of rest will remain at the rest and

a body in a state of motion will continue its motion in a straight line with uniform

velocity.”

It can also be stated as:

“ Every body contains its state of rest, or of uniform motion in a straight line, unless it is

acted upon by an unbalanced force.”

Explanation:

The law consists of two parts. The first part states that a body does not change its state

of rest in the absence of external force. According to second part, a body continues its

motion with its velocity and direction until and unless external force acts on it. Simply

we can say that force is required to change the state of body or to produce

acceleration.

Newton’s Second Law of Motion:

Introduction:

Newton’s laws discuss the motion of body. Newton’s second law of motion explains the

Acceleration of motion.

Statement:

Newton’s second law of motion can be stated as,

“When an external force acts on an object, it produces acceleration in it. The

magnitude of acceleration is directly proportional to the magnitude of unbalanced

force and its direction is exactly same as that of unbalanced force.”

It can also be stated as,

“When a force acts on an object, it produces acceleration in its own direction which is

directly proportional to the magnitude of force and inversely proportional to the

mass.”

Mathematical Interpretation:

The relationship between the force applied and the acceleration produced in an object

can be mathematically expressed as

a & F (For a constant mass)______1

This acceleration is in the direction of applied force.

The relationship between the mass of an object and the acceleration produced in it can

be mathematically expressed as

a & 1 /m (For a constant Force)______2

Combination of both above relationship gives new mathematical form

a & F/m

Removing the proportionality constant

a = K. F

m

Where K is a proportionality constant.

If K has value of 1

a = 1. F

m

ma = F or,

F = ma

Which is the mathematical form of Newton’s 2nd law of motion?

Unit of Force:

M.K.S. System:

Newton symbol N

F = ma

1 N = 1 kg . 1m / s2

If body of mass 1 kg moves with an acceleration of 1m/s2, than it is said that Force of

1N is acting on it.

C.G.S. System:

Dyne

F = ma

1 dyne = 1 gm. 1 cm/sec2

If 1gm mass of a body moves with an acceleration of 1cm / sec2, than it is said that

Force of 1 dyne is acting on it.

F.P.S. System:

Pound symbol Ib

If a body of mass 1 sing moves with an acceleration of 1 ft/sec2, than it is said that

Force of 1 Ib is acting on it.

The SI (System International) unit of Force is Newton.

Newton’s Third Law of Motion:

Introduction:

Newton’s Laws of motion describes the motion of a body. Newton’s 3rd law of motion

explains the concept of action and reaction of a force.

Statement:

Newton’s 3rd law of motion can be stated,

“ To every action there is an equal and opposite reaction.” FAB = - FBA

It can also be stated as,

“Action and reaction are just equal in magnitude but exactly opposite in direction.”

Explanation With The Help Of Illustration:

During walking, a man pushes the earth backward (action), as, a result earth exerts force

on the foot of man and pushes forward (reaction).

During swimming, a swimming pushes the water from hand backward as a result water

pushes the swimmer forward.

During jumping, a jumper pushes the earth back ward as a result earth throws jumper

Forward.

Analytical Interpretation:

FAB

A B


FBA

Consider the interaction between two bodies A and B as shown in figure. The force

exerted by A on B is FAB and the force exerted by B on A is FBA. Then according to the

law.

FAB = FBA

Equating sign shows that both forces (action – reaction) are of same magnitudes while

Negative between them shows that both act in the opposite direction.

Momentum:

Momentum is defined as “quality of motion is called momentum.”

It can also define as:

“The product of mass and velocity is called momentum.”

Momentum describes the character sticks of motion of a body which are as follows:

Under the same momentum:

1. Heavy body moves slow

2. Light body moves fast

Mathematically momentum can be interpreted as:

Momentum = mass x velocity

P = mv P = mv

Where P : momentum P = kg. m/sec

m : mass

v : velocity

Momentum is a vector quantity

The unit of momentum is N.S. or Kg. m/s. G N = kg.m

P = N sec

Unit: By definition

P = mv

In M.K.S. system P = kg m/s

Multiplying and dividing by S.

P = kg m/s S/s

P = kg m/s2S

But F = ma (Newton 2nd law)

In M.K.S. System N = kg m/s2

Unit of momentum becomes

P = N.S.

Vector form of momentum can written as

P = mv

Where mass “ m “ is a scalar quality.

Law Of Conservation Of Momentum:

Statement:

Law of conservation of momentum can be stated as:

“The total momentum before and after collision for an isolated system always remain

same.”

It can also be written as:

“If there is no external force acts on a system the total linear momentum of that system

always remain in time.”

Mathematical Interpretation:

U1 U2

Before collision

m1 m2

F12 F21


During collision

m1 m2

V1 V2

After collision

m1 m2

Let mass of body 1 = m1

Initial velocity of body 1 = u1

Initial momentum of body 1 = m1u1

Mass of body 2 = m2

Initial velocity of body 2 = u2

Initial momentum of body 2 = m2u2

Total momentum before collision (initial) = m1u + m2u2 _____

Mass of body 1 = m1

Final velocity of body 1 = v1

Final momentum of body 1 = m1v1

Mass of body 2 = m2

Final velocity of body 2 = v2

Final momentum of body = m2v2

Total momentum after collision (final) = m1v1 + m2v2

According to law of conservation of momentum

Total momentum = total momentum

Before collision after collision

m1 + m2u2 = m1v1 + m2v2

Which is the mathematical interpretation of law of conservation of energy.

Mass And Weight:

Mass

Weight

1. The quality of a matter present in a body

is called mass.

1.The force with which earth attracts

every thing towards its center is called

weight..

2. It is denoted by m.

2. It is denoted by W.

3. It remains same at every altitude.

3. It varies with height.

4. It is independent of direction.

4. It always acts downwards.

5. It is scalar quantity.

5. It is vector quantity.

6. Units in different systems are as follows:

M.K.S. System: kg

C.G.S. System: gm

F.P.S. System : smg

6. Units in different systems are as follows

M.K.S. System: N

C.G.S. System : Dyne

F.P.S. System : Ib

7. Mathematically m = w / g

7. Mathematically w = mg

Force of Friction:

Symbol: It is denoted by “ F “.

Definition:

When ever a body slides over any surface their surface tends to resist the motion of a

body. The apposing force offered by the surface to stop the motion of a body is called

force of friction.

Reason:

Due to roughness of surface. When ever an object slides over any surface then

blockage of protection and depression between object and the surface causes force of

frication.

F f

Depression Point of contact

project


Direction:

The direction of force of friction is always opposite to the direction of motion.

Position:

The frictional force develop at the point of contact between the object and surface.

Factors Affecting the Force Of Friction:

Following are factor effecting the force of friction.

i. Weight of body:

Force of friction increases as the weight of the body increases.

ii. Normal of Reaction Of Surface:

Force of friction increases as the normal reaction of the surface increases,

because normal reaction depends on the weight and it increases as weight

increase.

iii. Roughness of surface (nature of surface):

If the surfaces rough then it has more force of friction, if the surface is smooth

then it has less friction.

Mathematical Interpretation:

Mathematically friction can be interpreted as:

f & R

f = µR

Where f = force of friction

R = normal reaction of the surface

µ = coefficient of friction.

Mathematical µ = f

R

It is define as “the ratio of force of friction to the normal reaction of the surface is

Called force of friction.”

It depends on the nature of the surface.

It has no units.

Types of frication:

Following are the types of friction.

Static friction:

The force of friction which acts on a body when it is in a state of rest, then it is said to be

static friction.

Mathematically fs = µ.R

Fs = static friction

µs = coefficient of static friction

R = normal reaction

Kinetic friction:

The force of friction which acts on a body when it is in a state of motion it is called

kinetic friction.

Mathematically fk = µ R

fk = static friction

µk = coefficient of kinetic friction

R = normal reaction

Rolling friction:

If a heavy spherical body is set to be rolling it experiences and opposing force called

rolling friction.

OR

When a body rolls over a surface, the force of friction is called rolling friction.

By magnitude rolling friction is very small bcause in case of rolling the area of contact

between body (rolling body) and the surface is very small.

For example:

Rolling friction between is 1/100 of the sliding (kinetic) friction between them.


ROLLING FRICTION


Advantages and disadvantages:

Advantages:

Following are the advantages of friction:

1. It produces balance (help in walking).

2. It produce grip in joints.

3. It makes the object stable at its position.

4. It produces heat.

Disadvantages:

Following are the disadvantage of friction:

1 .More amount of force is required to move any object.

2 .More amount of energy required to perform work.

3 .It produces heat.

4 .Due to friction, surface destroyed.

Methods of reading friction:

Following are the methods used for minimizing friction.

1. Various parts of machines which are moving over one other are properly

lubricated.

2. In machine the sliding of various is usually replaced by rolling and this is done

by ball bearing.

3. Where sliding is unavoidable a thick layer of oil is used between sliding surfaces

4. The front part of fast moving object should be made oblong

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