collision(B).pdf

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7. A canon ball is fired with a velocity 200 m/sec at an angle of 60°
with the horizontal. At the highest point of its flight. it explodes
into 3 equal fragments, one going vertically upwards with a
velocity 100 m/sec, the second one falling vertically downwards
5.12- COLLISIONS with a velocity 100 m/sec. The third fragment will be moving
with a velocity
1. A stationary radioactive nucleus of mass 210 units dic:
(@) 100 m/s in the horizontal direction
into an alpha particle of mass 4 units and a rt pa
of the alpha pbc of (b) 300 m/s in the horizontal direction
mass 206 units. If the kinetic energy (¢) 300 m/s in a direction making an angle of 60° with the
kinetic energy of residual nucleus is : hat
the
“ ea Cr
(a) E/206 (b) 3 E/103
( messed i a direction
irecti making
i an angle o wi/ith the
(c) 2 E/NO03 (d) E/N03
two identi masses 200 and 400 gm
8. Two solid rubber balls A and B having of A
ghey rest ws rr: respectively are moving in opposite direction with velocity
— an inextensible pestring to 0-3 m/sec. After collision, the two balls come to rest
by equal
passing over a smooth when the velocity of B is :
frictionless pulley. Mass (a) 0-15 m/sec (b) 1-5 m/sec
P is given a downward (¢) - 0-15 m/sec (d) None of the above
push with a eed ¥ as ¢ 9. A shell of mass m moving with velocity v suddenly breaks into 2
shown 1n Fig. 512.1. It J1P Qo pieces. The part having mass m/4 remains stationary. The velocity
collides with the ren of the other piece will be
and rebounds. at 2v

happens immediately Floor ww ® 2
ay 3 d) 4
=v
© =v
after collision”
(a) P and Q both move upwards with equal speeds 4 ’ and
10. A body of mass m strikes a stationary body of mass M one-
(b) P and Q both move upwards with different speeds collision. After collision, m has a speed
undergoes an elastic
(c) P moves upwards and Q moves downwards with equal speeds third its initial speed. The ratio M/m is
@ 1:2 Bb) 2:1
(d) Both P and Q are at rest
1:3 3:1
3. A bomb of mass 9 kg explodes into 2 pieces of mass 3 kg and
mass 5 kg moving with a velocity 10 m/s collides with
6 kg. The velocity of mass 3 kg is 1-6 m/s, the K.E. of mass 6 kg is 11. A body of
(0 rest. The
(b) 961] another body of the mass 20 kg at rest and comes
(a) 3-841]
(d) 2927 velocity of the second body due to collision is
(c) 1927
(AIPMT 2005 ; Karnataka CET 2007 ; Odisha JEE 2008) @): 23.08 hr Cris Eo
Tamia (ly 10s (KCET 2001)
4. If a shell fired from a cannon, explodes in mid air,’ then 12. A ball falls from rest from a height 4 onto a floor, and rebounds to
'
a height 4/4. The coefficient of restitution between the ball and
(a) its total kinetic energy increases
the floor is
(b) its total momentum increases
(a) 172 (b) 1/4
(c) its total momentum decreases
© + @ 34
(d) none of these (Pb. PET 2004)
spring.
5. Two unequal masses are tied together with a compressed
13. A ball of weight 0-1 kg coming with speed 30 m/s strikes with a
When the cord is burnt with a match stick, releasing the spring,
bat and returns in opposite direction with speed 40 nvs, then the
the two masses fly apart with equal
impulse is (Taking final velocity as positive)
(a) momentum (b) speed
(@) —0-1x (40) - 0-1 x (30)
(c) acceleration (d) kinetic energy
(b) 0-1 x (40) — 0-1 x (- 30)
constant velocity u hits another
6. A sphere of mass /m moving with a (¢) 0-1 x (40) + 0-1 x (- 30)
mass. If e is the coefficient of
stationary sphere of the same (d) 0-1 x (40) — x (20)
of two spheres after
0-1

ratio of the velocity
restitution, then the hits a honzontal
collision will be 14. A ball falling freely from a height of 4:9 m
3
=e 1+e surface. If e= rk then the ball will hit the surface second time
(a) b) 7
l1+e 1-e after
é+1 e-1p. (@ 05s (b) 15s
(c) @ e +1 (c) 35s (d) 34s (DUMET 2005)
e—1