Physics, asked by abhisheksagar9608439, 3 months ago

(a) The group velocity and phase velocity are
connected through the relation :
vg = gp++k/dvp/dk
Obtain an expression for ve
in terms of
wavelength 2.​

Answers

Answered by bhavneetsingh10
1

Answer:

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

Explanation:

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

The group velocity and phase velocity are

connected through the relation :

vg = gp++k/dvp/dk

Obtain an expression for ve

in terms of

wavelength 2.

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