PHYSICS:F/SCI.+ENGRS.(LL)-W/WEBASSIGN
PHYSICS:F/SCI.+ENGRS.(LL)-W/WEBASSIGN
10th Edition
ISBN: 9781337888714
Author: SERWAY
Publisher: CENGAGE L
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Chapter 16, Problem 22P

(a)

To determine

To shows: That the wave function y(x,t)=x2+v2t2 is a solution to the linear wave equation.

(a)

Expert Solution
Check Mark

Explanation of Solution

Any function is a solution of linear wave equation in general if it satisfies the equation completely.

The linear wave equation in general is,

  2yx2=1v22yt2

The given wave function is,

  y(x,t)=x2+v2t2        (I)

Differentiate equation (I) partially with respect to x.

  y(x,t)x=x(x2+v2t2)=2x

Again differentiate partially with respect to x.

  2y(x,t)x2=x(2x)=2        (II)

Differentiate equation (I) partially with respect to t.

  y(x,t)t=t(x2+v2t2)=v2(2t)

Again differentiate partially with respect to t.

  2y(x,t)t2=t{v2(2t)}=2v21v22y(x,t)t2=2=2y(x,t)x2

Conclusion:

Therefore, the wave function y(x,t)=x2+v2t2 is a solution to the linear wave equation.

(b)

To determine

To shows: That the wave function y(x,t)=x2+v2t2 can be written as f(x+vt)+g(xvt) and determine the functional form of f and g.

(b)

Expert Solution
Check Mark

Answer to Problem 22P

The functional form of f is 12(x+vt)2 and the functional form of g is 12(xvt)2.

Explanation of Solution

It can be proved as,

  f(x+vt)+g(xvt)=12(x+vt)2+12(xvt)2=12(x2+v2t2+2xvt)+12(x2+v2t22xvt)=12×2(x2+v2t2)=y(x,t)

Therefore,

The functional form of f=12(x+vt)2

The functional form of g=12(xvt)2

Conclusion:

Therefore, the functional form of f is 12(x+vt)2 and the functional form of g is 12(xvt)2.

(c)

To determine

Repeat part (a) and part (b) for the function y(x,t)=sin(x)cos(vt).

(c)

Expert Solution
Check Mark

Explanation of Solution

Any function is a solution of linear wave equation in general if it satisfies the equation completely.

The given wave function is,

    y=sin(x)cos(vt)        (III)

Differentiate equation (I) partially with respect to x.

    y(x,t)x=x(sin(x)cos(vt))=cos(x)cos(vt)

Again differentiate partially with respect to x.

    2y(x,t)x2=x(cos(x)cos(vt))=sin(x)cos(vt)        (VI)

Differentiate equation (I) partially with respect to t.

     y(x,t)t=t(sin(x)cos(vt))=vsin(x)sin(vt)

Again differentiate partially with respect to t.

    2y(x,t)t2=t{vsin(x)sin(vt)}=v2sin(x)cos(vt)1v22y(x,t)t2=sin(x)cos(vt)=2y(x,t)x2

From the trigonometry,

  sin(x+vt)=sinxcosvt+cosxsinvt        (I)

  sin(xvt)=sinxcosvtcosxsinvt        (II)

Add equation (I) and (II).

  sin(x+vt)+sin(xvt)=sinxcosvt+cosxsinvt+sinxcosvtcosxsinvt=2sinxcosvt12sin(x+vt)+12sin(xvt)=sin(x)cos(vt)

Conclusion:

Therefore, the functional form of f is 12sin(x+vt) and the functional form of g is 12sin(xvt).

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Chapter 16 Solutions

PHYSICS:F/SCI.+ENGRS.(LL)-W/WEBASSIGN

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