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- 1. IX CBSE PHYSICS BY THE END OF THIS COURSE THE LEARNER WILL BE ABLE TO UNDERSTAND THE DEFINITION OF; DISTANCE, DISPLACEMENT, SPEED, VELOCITY, ACCELERATION,MOMENTUM, FORCE,INERTIA
- 2. IX CBSE PHYSICS Motion • Introduction • Speed and Velocity • acceleration • Equations of uniformly accelerated motion • Graphical representation of motion • Equations of motion by graphical method • Uniform circular motion
- 3. 1. Introduction • In our daily life, we see lots of things moving around for example car passing through from one place to other, person riding on a bicycle and many more like this. • In scientific terms an object is said to be in motion ,if it changes its position with the passage of time and if it does not change it position with the passage of time then it is said to be at rest • Both the motion and rest are relative terms for example mobile kept on the table is resting at its position but it is moving in the sense as earth is rotating on its axis. So for a person seeing mobile from earth it is at rest and for person on moon earth seems to change its position with time and so mobile is moving. • Simplest case of motion is rectilinear motion which is the motion of the object in a straight line • In our description of object, we will treat the object as a point object. • Object under consideration can be treated as point object if the size of the object is much smaller than the distance traveled by it in reasonable time duration for example length of a motor car traveling a distance of 500km can be neglected w.r.t. distance traveled by it.
- 4. 2. Motion along a straight line • The simplest type of motion is the motion along a straight line. • Two different quantities Distance and Displacement are used to describe the overall motion of an object and to locate its final position with reference to its initial position at a given time. • Distance in physics, is the length of the path (the line or curve) described by an object moving through space. Distance is independent of direction. Thus, such physical quantities that do not require direction for their complete description are called scalars. • When a body moves from one position to another the shortest distance between the initial and final position of the body along with its direction is known as displacement. Displacement has both direction and magnitude for its complete description and hence such physical quantities are called a vectors. • The distance travelled by a moving body cannot be zero but the final displacement of a moving body can be zero. • If a body covers equal distances in equal intervals of time then it is said to be having uniform motion. • If a body covers unequal distances in equal intervals or equal distances in unequal intervals then body is said be having non-uniform motion.
- 5. 3. Speed • Speed is defined as the total distance travelled by the object in the time interval during which the motion takes place. SI unit of speed is meter per second. So, where s is the distance travelled by the body and t is the time taken by the body to travel distance s. • Speed of a body gives us the idea how slow or fast that body is moving. • The ratio of total distance to total time taken by the body gives its average speed. The speed of a body at a given instant is its instantaneous speed. • A body is said to have constant or uniform speed if it travels equal distance in equal intervals of time.
- 6. 4. Velocity • The rate of change of displacement of a body with the passage of time is known as velocity of the body. Velocity of an object is measured in meter per second in SI units. So, • Velocity is nothing but the speed of an object moving in a definite direction. • The velocity of an object can be uniform or variable. It can be changed by changing the object�s speed, direction of motion or both. • So velocity of a body is a vector quantity involving both distance and displacement whereas speed of a body is a scalar quantity and it only has magnitude and does not have specific direction. • Thus a body is said to be moving with uniform velocity if it covers equal distances in equal intervals of time in a specified direction. • A body is said to be moving with non uniform velocity if it covers unequal distances in equal intervals of time and vice-versa in a specified direction or if it changes the direction of motion. • The velocity of a body can be changed in two ways first by changing the speed of the body and second by changing the direction of motion of the body by keeping the speed constant. Also both speed and direction of the body can be varied in order to change the velocity of the body. • When velocity of the object changes at a uniform rate, then average velocity is given by the arithmetic mean of initial velocity and final velocity for a given period of time. That is, Where u is the initial velocity of the object and v is the final velocity of the object.
- 7. 5. acceleration • Acceleration is a measure of the change in the velocity of an object per unit time and mathematically it is given as • If the velocity of an object changes from an initial value u to the final value v in time t, the acceleration a is given by, a=v−ut and this kind of motion is called accelerated motion. • A body has uniform acceleration if it travels in a straight line and its velocity increases by equal amount in equal intervals of time for example freely falling bodies, motion of ball rolling down the inclined plane etc. • A body has non uniform acceleration if its velocity increases or decreases by unequal amount in equal intervals of time. • If acceleration is in the direction of the velocity then it is positive acceleration and if it is in the direction opposite to the direction of velocity then it is negative and the negative acceleration is termed retardation. • SI unit of acceleration is ms-2.
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- #2: CONGRATULATIONS ON JOINING ONLINE TUTOR FOR IX CBSE PHYSICS. WE WISH YOU FINE GRADES IN THE EXAMINATIONS FOR WHICH YOU WILL BE TRAINED THOROUGHLY