State in the following cases, whether the motion is one, two or three dimensional motion is one, two or three dimesional motion: (a) a dite fluing onwindy day (b) a speeding car on a long straight high way (c ) a carrom coin rebounding from the side if the board (d) a plane revolving around its star.

Given below are some examples of motion. State in each case. If the motion is one, two or three dimensions : (i) A flying bird in the sky(ii) A footballkicked by a playes (iii) Earth revolving around the sum (iv) The motion of the bob of a simple pendulum.

Given below are some eamples of wave motion. State in each case, if the wave motino is transverse, longitudinal or a combination of both? (i) Motion of a kink in a long coil spring produced by displacing one end of spring side ways. (ii) Waves produed in a cylinder containing a liquid by moving its piston back and forth. (iii) Waves produed by a motor boat sailing in water. (iv) Light waves travelling from sun to earth. (v) ultrasonic waves in air produced by a vibrating quartz crystal.

The general motion of a rigid body can be considered to be a combination of (i) a motion of its centre of mass about an axis, and (ii) its motion about an instantaneous exis passing through the centre of mass. These axes need not be stationary. Consider, for example, a thin uniform disc welded (rigidly fixed) horizontally at its rim to a massless, stick as shown in the figure. When the disc-stick system is rotated about the origin on a horizontal frictionless plane with angular speed omega the motion at any instant can be taken as a combination of (i) a rotation of the disc through an instantaneous vertical axis passing through its centre of mass (as is seen from the changed orientation of points P and Q). Both these motions have the same angular speed omega in this case Now consider two similar system as shown in the figure: Case (a) the disc with its face vertical and parallel to x-z plane, Case (b) the disc with its face making an angle of 45^@ with x-y plane and its horizontal diameter parallel to x-axis. In both the cases, the disc is welded at point P, and the systems are rotated with constant angular speed omega about the z-axis. Which of the following statements regarding the angular speed about the instantaneous axis (passing through the centre of mass) is correct?

Projectile motion is a combination of two one-dimensional motion: one in horizontal and other in vertical direction. Motion in 2D means in a plane. Necessary condition for 2D motion is that the velocity vector is coplanar to the acceleration vector. In case of projectile motion, the angle between velocity and acceleration will be 0^@ lt theta lt 180^@ . During the projectile motion, the horizontal component of velocity ramains unchanged but the vertical component of velocity is time dependent. Now answer the following questions: An object is projected from origin in x-y plane in which velocity changes according to relation vecv = a hati + bx hatj . Path of particle is

Projectile motion is a combination of two one-dimensional motion: one in horizontal and other in vertical direction. Motion in 2D means in a plane. Necessary condition for 2D motion is that the velocity vector is coplanar to the acceleration vector. In case of projectile motion, the angle between velocity and acceleration will be 0^@ltthetalt180^@ . During the projectile motion, the horizontal component of velocity ramains unchanged but the vertical component of velocity is time dependent. Now answer the following questions: A particle is projected from the origin in the x-y plane. The acceleration of particle in negative y-direction is alpha . If equation of path of the particle is y = ax - bx^2 , then initial velocity of the particle is

Projectile motion is a combination of two one-dimensional motion: one in horizontal and other in vertical direction. Motion in 2D means in a plane. Necessary condition for 2D motion is that the velocity vector is coplanar to the acceleration vector. In case of projectile motion, the angle between velocity and acceleration will be 0^@ltthetalt180^@ . During the projectile motion, the horizontal component of velocity ramains unchanged but the vertical component of velocity is time dependent. Now answer the following questions: A body is projected at angle of 30^@ and 60^@ with the same velocity. Their horizontal ranges are R_1 and R_2 and maximum heights are H_1 and H_2 , respectively, then A body is projected at angle of 30^@ and 60^@ with the same velocity. Their horizontal ranges are R_1 and R_2 and maximum heights are H_1 and H_2 , respectively, then

(i) Liquid of density rho flows at speed upsilon along a flexible pipe bent into a semicircle of radius R. The cross sectional area of the pipe is A and its cross sectional radius is small compared to R. Three strings S_(1), S_(2) and S_(3) keep the pipe in place. S_(3) ties the two ends of the pipe and the other two string have their ends secured at A and B. Strings S_(1) and S_(2) are perpendicular to the string S_(3) . The entire system is in horizontal plane. Find the tension in the three strings (ii) A car of mass M is moving with a velocity V_(0) on a smooth horizontal surface. Bullets, each of mass m, are fired horizontally perpendicular to the velocity of the car with a speed u relative to the car. After firing n bullets it was found that the car was travelling with velocity V_(0) in a direction opposite to its original direction of motion. Assume that mu lt lt MV_(0) and also that nm lt lt M . Find n in terms of other given parameters.