CLASS-9TH SCIENCE CHAPTER -7 MOTION THEORY NOTES
A body is said to be at rest, if it does not change its position with respect to time / to the observer
Example – A Chair lying on floor, A book kept on the table,etc.
A body is said to be in motion if it changes its position with respect to time / observer
Example – A car moving on the road, Kite flying in air etc.
Types of motion
- Uniform motion
- Non uniform motion
Uniform motion
When a body covers equal distances in equal intervals of time is called uniform motion
Non-Uniform motion
When a body covers unequal distances in equal intervals of time is called non-uniform motion
Such physical quantity which has only magnitude is called scalar quantity
Example – Distance, Volume, Mass, Work, etc.
Such physical quantity which has both magnitude and direction is called vector quantity
Example – Displacement, Velocity, Acceleration, etc.
Some important physical quantity
- Distance
- Displacement
- Speed
- Velocity
- Acceleration
- It is the total path length covered by a body
- It is a scalar quantity
- Distance travelled by a body is always positive
- It cannot be zero for a moving body
- It is the shortest distance between initial and final position of the body.
- It is vector quantity.
- Displacement of body may be positive or negative or zero .
- The distance covered by a body per unit time is called speed .
- Speed is a scalar quantity.
- Speed = distance travelled / Time
- v = s/t
- S.I unit = meter / second
- C.G.S unit = centimeter / second
When a body covered equal distance in equal intervals of time, howsoever small the time interval may be, then the body is said possess uniform speed.
Non-uniform speed
When a body covered unequal distance in equal time interval, then it is said to possess non- uniform speed.
Average speed
Average speed is the total distance travelled by the body divided by the total time taken.
Average speed = Total distance travelled / Total time taken
Velocity
The distance travelled by a body per unit time in a specified direction is called velocity.
Velocity is a vector quantity.
Velocity = Displacement / time taken
(v) = s/t
Uniform Velocity
A body is said to be moving with uniform velocity if ii moves along a fixed direction and covers equal distances in equal intervals of time, however small these intervals of time may be.
Non-uniform Velocity/Variable velocity
A body is said to be moving with variable velocity if:
- its speed change but direction does not change.
- its speed remains the same, but direction of motion change, or
- both its speed and direction of motion change.
Examples of non-uniform velocity:
- A stone thrown vertically upwards.
- A stone dropped from a height.
- A car moving towards east on a crowded road.
Average velocity
Average velocity is that velocity with which a body would cover the same distance along a particular direction (same displacement) at the same time.
Average velocity(V) = Displacement/Total time taken = S/T
Acceleration:
The rate of change of velocity of a body is called acceleration.
Acceleration= Change in velocity/Time taken for change
Acceleration= V-U/T
The S.I. Unit of acceleration is MS-2.
Retardation:
The negative acceleration is also called retardation.
Equation of motion:
The equation which correlates initial velocity (u), final velocity(v), acceleration(a), time taken(t) and displacement(s) of a body for an activity in which a body has uniform acceleration are called equations of motion.
(1) First equation of motion: We know that acceleration is change in velocity per unit time.
a = v-u/t ∴ at = v-u
∴ V = u + at . . . (
(2) Second equation of motion: We know that Average velocity = Initial velocity + Final velocity / 2
V a v = u + v / 2
Then, distance covered (s) = Average velocity * Time
∴ s = u + v/ 2 *t
But v = u + at
[ First equation of motion]
∴ s = [ u+( u + at)] * t/2 = 2ut + at2 /2
or S = u t + 1/2 at2 . . . (II)
(3) Third equation of motion: We know that Average velocity = v + u/2
Distance covered (s) = Average velocity * Time
∴ s = (v + u/2)
But v = u + at
∴ t = v-u/a . . . (III)
∴ s = (v-u/2) * (v-u/a)
or V2 – U2 = 2as . . . (IV)
CLASS-9TH SCIENCE CHAPTER -7 MOTION THEORY NOTES
