30.Two polaroids are placed in the path of unpolarised
beam of intensity I 0 such that no light is emitted
from the second polaroid. If a third polaroid whose
polarisation axis makes an angle with the
polarisation axis of first polaroid, is placed between
these polaroids then the intensity of light emerging
from the last polaroid will be(a) I cos 0 4 (b)(^022)
8
I
sin
(c)
0 4
2
I
sin
(d)
(^022)
4
I
sin
The Fraunhofer diffraction pattern of a single slit
is formed in the focal plane of a lens of focal length
1 m. The width of slit is 0.3 mm. If third minimum is
formed at a distance of 5 mm from central maximum,
then wavelength of light will be
(a) 2500 A
(b) 5000 A
(c) 8500 A
(d) 7500 A
A string is hanging from a rigid support. A
transverse wave pulse is generated at its free end.
The speed of wave pulse at distance x from its free
and is proportional to
(a) x^2 (b) x (c) x (d)
1
x
The superposing waves are represented by the
following equations y 1 5sin 2 10 0.1 , t x
y 2 10sin 2 10 t 0.1x Ratio of intensities
max
min
I
I will be
(a) 16 (b) 1 (c) 9 (d) 4
The pulley shown in the figure. has a radius r,
moment of inertia I about its axis and mass m. Find
the time period of vertical oscillations of its centre
of mass. the spring constant of spring is K and the
spring does not slip over the pulley.
(a)
m I R/^2
K
(b)
/^2
2
2
m I R
K
(c)
2 /^2
2
m I R
K
(d)
/^2
2
m I R
K
The displacement equation of the SHM obtained
by combining the motions x 1 2 sint,
2 4 sin
6
x t
and 3 6 sin
3
x t
is.
(a) x11.10 sin( t 31.54 )
(b) x9.24 sin( t 37.1 )
(c) x8.20 sin( t 23.4 )
(d) x12.10 sin( t 19.1 )
d c d a c
b d a c d
a a a b b
c b c b b
b a a c b
b c c b a1/ 4 1/ 4
2 1
1 24300
4.55
10A h
A h
0.2
4.55 11.37
0.5x
x mBefore connecting E, the circuit diagram is as
shown in the figure.1.Sol:2.Sol:Current in the circuit,12V 1
I A
24 2