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One end of a long string of linear mass density
8
.
0
×
10
-
3
kgm
-
1
is connected to an electrically driven tuning fork of frequency 256 Hz. The other end passes over a pulley and is tied to a pan containing a mass of 90 kg. The pulley end absorbs all the incoming energy so that reflected waves at this end have negligible amplitude. At
t
= 0, the left end (fork end) of the string
x
= 0 has zero transverse displacement (
y
= 0) and is moving along positive
y
-direction. The amplitude of the wave is 5.0 cm. Write down the transverse displacement
y
as a function of
x
and
t
that describes the wave on the string.
The
equation
of
a
travelling
wave
propagating
along
the
positive
x
-
direction
is
given
by
:
y
x
,
t
=
asin
ωt
–
kx
.
.
.
.
i
It
is
given
in
the
question
that
:
Linear
mass
density
,
μ
=
8
.
0
×
10
-
3
kg
m
-
1
Frequency
of
the
tuning
fork
,
ν
=
256
Hz
Amplitude
of
the
wave
,
a
=
5
.
0
cm
=
0
.
05
m
.
.
.
.
ii
Mass
of
the
pan
,
m
=
90
kg
Tension
in
the
string
,
T
=
mg
=
90
×
9
.
8
=
882
N
The
velocity
of
the
transverse
wave
v
,
v
=
T
μ
=
882
8.0
×
10
−
3
=
332
m
/
s
Angular
frequency
,
ω
=
2
π
ν
=
2
×
3.14
×
256
=
1608.5
=
1.6
×
10
3
rad
/
s
.
.
.
iii
Wavelength
is
given
by
,
λ
=
v
v
=
332
256
m
∴
Propagation
constant
is
given
by
,
k
=
2
π
λ
=
2
×
3.14
332
256
=
4.84
m
−
1
.
.
.
iv
Substituting
the
values
from
equations
ii
,
iii
,
and
iv
in
equation
i
,
y
x
,
t
=
0
.
05
sin
1
.
6
×
10
3
t
–
4
.
84
x
m
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