Saturday, 19 November 2016

CLASS -9- F.A.3 - PHYSICS - REVISION

ARMY PUBLIC SCHOOL, GOLCONDA

Class 9 – Physics
 F.A.3 REVISION
(WORKSHEET)









   1.   An object is put in four liquids having different densities as, d1,d2 ,d3 ,d4  . If d1 > d2 > d3 > d4. Which liquid exerts the maximum upward force? Why?

   2.   When a golf ball is lowered in a measuring cylinder containing water, the water level rises up by 30 cm3 when the ball is completely submerged. If the mass of the ball in air is 33 g.
a)   Find density of object.
b)  State whether ball will sink or float.
c)   Mass of water displaced.
d)  Buoyant force acting on ball.

   3.   5 N of force acts on material A over the area of 20 m2 whereas 20 N of force acts on area 40 m2 of material B. Which has exerted the greater pressure? Calculate the ratio of pressure exerted by the two.

   4.   A boy throws a rubber ball vertically upwards. What type of work, positive or negative, is done :
a)   By the force applied by the boy?
b)  By the gravitational force of earth?

   5.   In which of the following cases the work has done by a force will be maximum: when the angle between the direction of force and direction of motion is 00 , 900 , 1800 ?

   6.   The relative density of four liquids P, Q, R, and S are 1.26, 1.0, 0.84, and 13.6 respectively. Which of the following liquid will exert maximum and minimum upthrust on object, if object immersed in these liquids?

   7.   Which would have a greater effect on the kinetic energy of an object: doubling the mass or doubling the velocity?

   8.   Two bodies of equal mass move with uniform velocity v and 3v respectively. Find the ratio of their kinetic energy.

   9.   A mass of 2 m3 of steel is 15600 Kg. when this mass completely immersed in water, calculate:
a)   Density of object in Kg/m3.
b)  State whether the steel mass will sink or float?
c)   Mass of water displaced.
d)  Buoyant force acting on steel.


   10.               A force of 300 N acts on a metallic cuboid of dimensions 30 cm X  20 cm X 15 cm. With which face the cuboid should rest, so that the pressure exerted by the cuboid on the floor is minimum?

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