IIT JEE -Physics<br />Kinematics<br />
SECTION – I<br />Fill in the Blanks<br />
01<br />Problem<br />1983<br />A particle moves in a circle of radius R. in half the period of revolution its displacemen...
02<br />Problem<br />1984<br />Four persons K,L,M,N are initially at the four corners of a square of side d. each person n...
03<br />Problem<br />1987<br />Spotlight S’ rotates in a horizontal plane with constant angular velocity of 0.1rad/s. the...
04<br />Problem<br />1997<br />The trajectory of a projectile in a vertical plane is y=ax-bx2, where a,b are constants, an...
SECTION – II<br />OBJECTIVE QUESTIONS<br />Only one option is correct<br />
01<br />Problem<br />1982<br />In the arrangement shown in the figure the ends P and Q of an unstretchable string move do...
02<br />Problem<br />1982<br />A particle is moving eastwards with a velocity of 5m/s. in 10 s the velocity changes to 5 m...
03<br />Problem<br />1983<br />A river is flowing from west to east at a speed of 5 meter per minute. A man on the south b...
04<br />Problem<br />1988<br />A boat which has a speed of 5 km/hr in still water crosses a river of width 1km along the s...
05<br />Problem<br />1993<br />A particle P is sliding down a frictionless hemispherical bowl. It passes the point A at t...
06<br />Problem<br />2004<br />In 1.0s, a particle goes from point A to point B, moving in a semicircle(see figure). The m...
07<br />Problem<br />2000<br />A ball is dropped vertically from a height d above the ground. It hits the ground and boun...
08<br />Problem<br />2004<br />A particle starts from rest. Its acceleration(a) versus time (t) is as shown in the figure....
09<br />Problem<br />2004<br />A small block slides without friction down an inclined plane starting from rest. Let sn be ...
10<br />Problem<br />2005<br />The given graph shows the variation of velocity with displacement. which one of the graph...
SECTION – III<br />OBJECTIVE QUESTIONS<br />More than one options are correct<br />
01<br />Problem<br />1993<br />A particle of mass ma moves on the x-axis as fallows :it starts from rest at t=0 from the p...
02<br />Problem<br />1999<br />The co-ordinates of a particle moving in a plane are given by x(t) = a cos (pt) and y (t) =...
SECTION – IV<br />SUBJECTIVE QUESTIONS<br />
01<br />Problem<br />1982<br />Particles P and Q of mass 20 g and 40 g respectively are simultaneously projected from poin...
02<br />Problem<br />1986<br />A body falling freely from a given height H hits an inclined plane in its path at a height ...
03<br />Problem<br />1994<br />A body falling freely from a given height H hits an inclined plane in its path at a height ...
04<br />Problem<br />1996<br />Two guns situated on the top of a hill of height 10 m fire one shot each with the same spee...
05<br />Problem<br />1997<br />A cart is moving along x-direction with a velocity of 4 m/s. A person on the cart throws a ...
06<br />Problem<br />1998<br />A particle of mass 10-2 kg is moving along the positive x-axis under the influence of a for...
07<br />Problem<br />1998<br />A large heavy box is sliding without friction down a smooth plane of inclination . From a p...
08<br />Problem<br />2000<br />An object A is kept fixed at the point x = 3 m and y = 1.25 m on a plank P raised above the...
09<br />Problem<br />2002<br />On a frictionless horizontal surface, assumed to be the x-y plane, a small trolley A is mov...
SECTION – V<br />TRUE or FALSE<br />
01<br />Problem<br />1983<br />Two balls of different masses are thrown vertically upwards with the same speed. They pass...
02<br />Problem<br />1984<br />A projectile fired from the ground follows a parabolic path. The speed of the projectile is...
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Kinematics

Published on: Mar 3, 2016
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Transcripts - Kinematics

  • 1. IIT JEE -Physics<br />Kinematics<br />
  • 2. SECTION – I<br />Fill in the Blanks<br />
  • 3. 01<br />Problem<br />1983<br />A particle moves in a circle of radius R. in half the period of revolution its displacement is …………… and distance covered is……………<br />.<br />
  • 4. 02<br />Problem<br />1984<br />Four persons K,L,M,N are initially at the four corners of a square of side d. each person now moves with a person now moves with a uniform speed v in such a way that K always moves directly towards L,L directly towards M,M directly towards N and N directly towards K. the four persons will meet at a time………<br />.<br />
  • 5. 03<br />Problem<br />1987<br />Spotlight S’ rotates in a horizontal plane with constant angular velocity of 0.1rad/s. the spot of light p moves along the wall at a distance of 3m. the velocity of the spot Pwhen0=450(see fig.)is………m/s<br />.<br />
  • 6. 04<br />Problem<br />1997<br />The trajectory of a projectile in a vertical plane is y=ax-bx2, where a,b are constants, and x and y are respectively the horizontal and vertical distances of the projectile from the point of projection. The maximum height attained is………….and the angle of projection from the horizontal is………..<br />.<br />
  • 7. SECTION – II<br />OBJECTIVE QUESTIONS<br />Only one option is correct<br />
  • 8. 01<br />Problem<br />1982<br />In the arrangement shown in the figure the ends P and Q of an unstretchable string move downwards with uniform speed U. pulleys A and B are fixed.<br />Mass M moves upwards with a speed:<br /> <br />2U cos θ<br />2U /cos θ<br />U/ cos θ<br />U cos θ<br />.<br />
  • 9. 02<br />Problem<br />1982<br />A particle is moving eastwards with a velocity of 5m/s. in 10 s the velocity changes to 5 m/s northwards. The average acceleration in this is:<br /> <br />Zero<br />1/√2 towards north-east<br />1/√2 m/s2 towards north-west<br />½ m/s2 towards north <br />.<br />
  • 10. 03<br />Problem<br />1983<br />A river is flowing from west to east at a speed of 5 meter per minute. A man on the south bank of the river, capable of swimming at 10 metre per minute in still water, wants to swim across the river in the shortest time he should swim in a direction :<br /> <br />Due north<br />300east of north<br />300 west of north<br />600 east of north<br />.<br />
  • 11. 04<br />Problem<br />1988<br />A boat which has a speed of 5 km/hr in still water crosses a river of width 1km along the shortest possible path in 15 minutes. The velocity of the river water in km/hr is:<br /> <br />1<br />3<br />4<br />√41<br />.<br />
  • 12. 05<br />Problem<br />1993<br />A particle P is sliding down a frictionless hemispherical bowl. It passes the point A at t = 0. At this instant of time, the horizontal component of its velocity is v.A bead Q of the same mass as P is ejected from A at t=0 along the horizontal string AB, with the speed v. friction between the bead and the string may be neglected. Let tp and tq be the respective times taken by P and Q to each the point B. then:<br /> <br />tp < tQ<br />tp = tQ<br />tp > tQ<br />d<br />.<br />
  • 13. 06<br />Problem<br />2004<br />In 1.0s, a particle goes from point A to point B, moving in a semicircle(see figure). The magnitude of the average velocity is:<br /> <br />3.14m/s<br />2.0 m/s<br />1,0 m/s<br />zero<br />.<br />
  • 14. 07<br />Problem<br />2000<br />A ball is dropped vertically from a height d above the ground. It hits the ground and bounces up vertically to a height d/2. neglecting subsequent motion and air resistance, its velocity v varies with height h above the ground as:<br />.<br />
  • 15. 08<br />Problem<br />2004<br />A particle starts from rest. Its acceleration(a) versus time (t) is as shown in the figure. The maximum speed of the particle will be:<br /> <br />110 m/s<br />55 m/s<br />550 m/s<br />660 m/s<br />.<br />
  • 16. 09<br />Problem<br />2004<br />A small block slides without friction down an inclined plane starting from rest. Let sn be the distance traveled from t=n-1to t= n. then  <br />1.2<br />1.25<br />2.20<br />2.25<br />.<br />
  • 17. 10<br />Problem<br />2005<br />The given graph shows the variation of velocity with displacement. which one of the graph given below correctly represents the variation of acceleration with displacement:<br /> <br />
  • 18. SECTION – III<br />OBJECTIVE QUESTIONS<br />More than one options are correct<br />
  • 19. 01<br />Problem<br />1993<br />A particle of mass ma moves on the x-axis as fallows :it starts from rest at t=0 from the point x=0, and comes to rest at t=1 at the point x=1. no other information is available about its motion at intermediate times(0<t<1). If denotes the instantaneous acceleration of the particle, then:<br /> <br />α cannot remain positive for all t in the interval 0 ≤t≤1<br />| α | cannot exceed 2 at any point in its path <br />| α | must be 4 at some point or points in its path <br /> α must change sign during the motion, but no other assertion can be made with the information given <br />.<br />
  • 20. 02<br />Problem<br />1999<br />The co-ordinates of a particle moving in a plane are given by x(t) = a cos (pt) and y (t) = b sin (pt) where a, b (< a) and p are positive constants of appropriate dimensions. Then : <br />The path of the particle is an ellipse <br />The velocity and acceleration of the particle are normal to each other at t = π/2p<br />The acceleration of the particle is always directed towards a focus <br />The distance traveled by the particle in time interval t = 0 to t = π /2 p is a<br />.<br />
  • 21. SECTION – IV<br />SUBJECTIVE QUESTIONS<br />
  • 22. 01<br />Problem<br />1982<br />Particles P and Q of mass 20 g and 40 g respectively are simultaneously projected from points A and B on the ground. The initial velocities of P and Q makes 450 and 1350 angles respectively with the horizontal AB as shown in the figure. Each particle has an initial speed of 49 m/s. the separation AB is 245 m.<br />Both particle travel in the same vertical plane and undergo a collision. After the collision, P retraces its path. Determine the position Q where it hits the ground. How much time after the collision does the particle Q take to reach the ground ? Take g = 9.8 m/s2<br />.<br />
  • 23. 02<br />Problem<br />1986<br />A body falling freely from a given height H hits an inclined plane in its path at a height h. As a result of this impact the direction of the velocity of the body becomes horizontal. For what value of (h/H) the body will take maximum time to reach the ground ? <br />.<br />
  • 24. 03<br />Problem<br />1994<br />A body falling freely from a given height H hits an inclined plane in its path at a height h. As a result of this impact the direction of the velocity of the body becomes horizontal. For what value of (h/H) the body will take maximum time to reach the ground ? <br /> Two towers AB and CD are situated a distance d apart as shown in figure. AB is 20 m high and CD is 30 m high from the ground. An object of mass m is thrown from the top of AB horizontally with a velocity of 10 m/s towards CD.<br />(i)calculate the distance d between the towers.<br />(ii)Find the position where the object hit the ground.<br />
  • 25. 04<br />Problem<br />1996<br />Two guns situated on the top of a hill of height 10 m fire one shot each with the same speed 5√3 m/s at some interval of time. One gun fires horizontally and other fires upwards at an angle of 600 with the horizontal. The shots collide in air at point P find : <br />(a)The time interval between the firings and <br />(b)The co-ordinates of the point P. Take origin of the co-ordinate system at the foot of the hill right below the muzzle and trajectories in x-y plane.<br />
  • 26. 05<br />Problem<br />1997<br />A cart is moving along x-direction with a velocity of 4 m/s. A person on the cart throws a stone with a velocity of 6 m/s relative to himself. In the frame of reference of the cart the stone is thrown in y-z plane making an angle of 300 with vertical z-axis. At the highest point of its trajectory the stone hits an object of equal mass hung vertically from branch of a tree by means of a string of length L. A completely inelastic collision occurs in which the stone gets embedded in the object. Determine : <br />(i) the speed of the combined mass immediately after the collision with respect to an the ground. <br />(ii) the length L of the string such that tension in the string becomes zero when the string becomes horizontal during the subsequent motion of the combined mass. <br />
  • 27. 06<br />Problem<br />1998<br />A particle of mass 10-2 kg is moving along the positive x-axis under the influence of a force F(x) = - k/2x2 where k = 10-2 Nm2. At time t = 0 it is at x = 1.0 m and its velocity v = 0.<br />Find its velocity when it reaches x = 0.5 m.<br />Find the time at which it reaches x =0.25 m.<br />
  • 28. 07<br />Problem<br />1998<br />A large heavy box is sliding without friction down a smooth plane of inclination . From a point P on the bottom of the box, a particle is projected inside the box. The initial speed of the particle with respect to the box is u and the direction of projection makes an angle with the bottom as shown in the figure. <br />Find the distance along the bottom of the box between the point of projection P and the point Q where the particle lands (Assume that the particle does not hit any other surface of the box. Neglect air resistance.)<br />If the horizontal displacement of the particle as seen by an observer on the ground is zero, find the speed of the box with respect to the ground at the instant when the particle was projected.<br />
  • 29. 08<br />Problem<br />2000<br />An object A is kept fixed at the point x = 3 m and y = 1.25 m on a plank P raised above the ground. At time t = 0 the plank starts moving along the +x-direction with an acceleration 1.5 m/s2. At the same instant a stone is projected from the origin with a velocity as shown.<br />A stationary person on the ground observes the stone hitting the object during its downward motion at an angle of 450 to the horizontal. All the motions are in x-y plane. Find and the time after which the stone hits the object take g = 10 m/s2<br />
  • 30. 09<br />Problem<br />2002<br />On a frictionless horizontal surface, assumed to be the x-y plane, a small trolley A is moving along a straight line parallel to the y-axis(see figure) with a constant velocity of (√3-1) m/s. At a particular instant when the line OA makes an angle of 450 with the x-axis, a ball is thrown along the surface from the origin O. Its velocity makes an angle Φ with the x-axis and it hits the trolley.<br />The motion of the ball is observed from the frame of the trolley. Calculate the angel θ made by the velocity vector of the ball with the x-axis in this frame. <br />Find the speed of the ball with respect to the surface, if Φ4θ/3<br />
  • 31. SECTION – V<br />TRUE or FALSE<br />
  • 32. 01<br />Problem<br />1983<br />Two balls of different masses are thrown vertically upwards with the same speed. They pass through the point of projection in their downward motion with the same speed(Neglect air resistance).<br />
  • 33. 02<br />Problem<br />1984<br />A projectile fired from the ground follows a parabolic path. The speed of the projectile is minimum at the top of its path.<br />