Answer:
a.[tex]k=\pm\frac{5}{2}[/tex]
Step-by-step explanation:
We are given that a solution
y= cos (kt) satisfied the differential equation
[tex]4y''=-25y[/tex]
We have to find the value of k
a.y=coskt
Differentiate w.r.t x
Then we get
[tex]y'=-k sinkt [/tex]
[tex]\frac{d(cos ax)}{dx}=-asin ax[/tex]
Again differentiate w.r.t x
[tex]y''=-k^2 cos kt[/tex] ([tex]\frac{d(sinax)}{dx}=a cos ax[/tex]
Substitute the value in given differential equation
[tex]-4 k^2 coskt=-25 coskt[/tex]
coskt cancel on both sides then we get
[tex]4k^2=25[/tex]
[tex] k^2=\frac{25}{4}[/tex]
a.[tex]k=\sqrt{\frac{25}{4}}=\pm\frac{5}{2}[/tex]
b.We have to show that y=A sin kt + B cos kt is a solution to given differential equation for k=[tex]\pm\frac{5}{2}[/tex]
Substitute the values of k
Then we get
[tex]y=A cos \frac{5}{2} kt+ B sin \frac{5}{2} kt [/tex]
Differentiate w.r.t x
[tex]y'=-\frac{5}{2} A sin \frac{5}{2}t+ \frac{5}{2} B cos \frac{5}{2}t[/tex]
Again differentiate w.r.t x
Then we get
[tex]y''=-\frac{25}{4}A cos \frac{5}{2} t+\frac{25}{4} B sin\frac{5}{2} t[/tex]
Substitute the value of y'' and y in given differential equation
[tex]-25 A cos \frac{5}{2} t +25 B sin \frac{5}{2} t=-25(A cos \frac{5}{2} t+ B sin \frac{5}{2} t) [/tex]
[tex]-25 A cos \frac{5}{2} t +25 B sin \frac{5}{2} t=-25 y[/tex]
LHS=RHS
Hence, every function of the form
y=A cos kt +B sin kt is a s solution of given differential equation for k=[tex]\pm\frac{5}{2}[/tex]
Where A and B are constants
