7.25 With the previous problem in mind prove that dn (v) dv n₂ = n(v) + v
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![A
eat pattern. Let's
ssuming that the
e angular spatial
Doral frequencies
, correspond to
e is then
w, 1)
[7.33]
avelength of the
quals the group
51)
eing amplitude-
e waves of fre-
of modulating
and sum over
is called the
wer sideband.
7.19 Given the dispersion relation w =
and group velocities.
7.20* Using the relation 1/v = dk/dv. prove that
1
Ve
7.21* In the case of lightwaves, show that
1
V
V=
1 11
C
Vg
v dv
2²
= +
ak², compute both the phase
V =
7.22 The speed of propagation of a surface wave in a liquid of depth
much greater than A is given by
v dn
c dv
solve 7.25 only
dv
where g = acceleration of gravity, A
=
wavelength, p = density. Y
= surface tension. Compute the group velocity of a pulse in the long
wavelength limit (these are called gravity waves).
7.23* Show that the group velocity can be written as
Vg = V-A
gλ 2πΥ
+
2πT
pλ
dv
dλ
7.24 Show that the group velocity can be written as
C
n + w(dn/dw)
7.25 With the previous problem in mind prove that
dn (v)
dv
n₂ = n(v) + v
i need clear ans by hand
and solve very very fast
in 20 min and thank you
A
DYBALA](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F432f6c8f-d6bd-436b-b230-4af784553c51%2F9dabd21e-fcd8-4004-a48f-451544938f8f%2F63b5rr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A
eat pattern. Let's
ssuming that the
e angular spatial
Doral frequencies
, correspond to
e is then
w, 1)
[7.33]
avelength of the
quals the group
51)
eing amplitude-
e waves of fre-
of modulating
and sum over
is called the
wer sideband.
7.19 Given the dispersion relation w =
and group velocities.
7.20* Using the relation 1/v = dk/dv. prove that
1
Ve
7.21* In the case of lightwaves, show that
1
V
V=
1 11
C
Vg
v dv
2²
= +
ak², compute both the phase
V =
7.22 The speed of propagation of a surface wave in a liquid of depth
much greater than A is given by
v dn
c dv
solve 7.25 only
dv
where g = acceleration of gravity, A
=
wavelength, p = density. Y
= surface tension. Compute the group velocity of a pulse in the long
wavelength limit (these are called gravity waves).
7.23* Show that the group velocity can be written as
Vg = V-A
gλ 2πΥ
+
2πT
pλ
dv
dλ
7.24 Show that the group velocity can be written as
C
n + w(dn/dw)
7.25 With the previous problem in mind prove that
dn (v)
dv
n₂ = n(v) + v
i need clear ans by hand
and solve very very fast
in 20 min and thank you
A
DYBALA
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