A train S 1 , moving with a uniform velocity of
108 km/h, approaches another train S 2 standing
on a platform. An observer O moves with a
uniform velocity of 36 km/h towards S 2 , as
shown in figure. Both the trains are blowing
whistles of same frequency 120 Hz. When O
is 600 m away from S 2 and distance between
S 1 and S 2 is 800 m, the number of beats heard
by O is __.
(Speed of the sound = 330 m/s)
6.6. A block of weight 100 N is suspended by
copper and steel wires of same cross sectional
area 0.5 cm^2 and, length 3 m and 1 m,
respectively. Their other ends are fixed on a
ceiling as shown in figure. The angles
subtended by copper and steel wires with
ceiling are 30° and 60°, respectively. If
elongation in copper wire is lc and
elongation in steel wire is ls, then the ratioC
Sl
l
is ___.
(Young’s modulus for copper and steel are 1
× 10^11 N/m^2 and 2 × 10^11 N/m^2 , respectively)SECTION-- a 2. a 3. b 4. d
SECTION-- (a,c&d) 2. (b, d) 3. (a,b&d)
4. (b, c) 5. (b,c,d) 6. (a,c&d)
7. (a,b&d) 8. (a,b)
SECTION-- 1.00 2. 50.00 3. 270.00, 120.
- 0.75 5. 8.12 or 8.13 6. 2.
SECTION-1.Sol:Field at C
As Field by the total shell at C is zero.
So we can assume the hole as a combination
of dq and -dq. So the net Filed is only due to
-dq.SECTION-SECTION-SECTION-Let Q is the charge on the shell.
Given that Potential at the surface is0KQ
V
RPotential at C(^0)
( )
C (1 )
KQ K Q
V V
R R
Potential at B
0
( )
(1 2 )
B /
KQ K Q
V V
R R
1
1 2
C
B
V
V
Field at A
0
A (2 ) 2 2 4 2
KQ K Q KQ V
E
R R R R
So reduced by
SECTION-
1.Sol:
Potential at C
Potential at B
Field at A
Field at C
V 0
R
0
2
( )
C
K Q V
E
R R