I am trying to plot step responses in MATLAB and cannot figure it out for anything, I have graphed a Bode plot for 3 different `k`

values for the following differential equation in time domain:

```
d^2y(t)/dt + (v/m)dy(t)/dt + (k/m)y(t) = (k/m)x(t)
```

in frequency the equation is:

```
H(jw)=((k/m))/((〖jw)〗^2+(v/m)(jw)+(k/m) )=k/(m(〖jw)〗^2+v(jw)+k)
```

the values of k are 1, 0.09, 4

The equations to solve for v is as follows:

```
v=sqrt(2)*sqrt(k*m) where m=1
```

I now must do the same for step, but am trying to no avail. Can anyone provide any suggestions?

Here is the code for my Bode plot and my attempted but failed step plots:

```
w=logspace(-2,2,100);
%Creating different vectors based upon K value
%then calculating the frequencey response based upon
%these values
b1=[1];
a1=[1 2^(.5) 1];
H1=freqs(b1,a1,w);
b2=[.09];
a2=[1 (2^.5)*(.09^.5) .09];
H2=freqs(b2,a2,w);
b3=[4];
a3=[1 2*(2^.5) 4];
H3=freqs(b3,a3,w);
%Ploting frequency response on top plot
%with loglog scale
subplot(2,1,1)
loglog(H1,w,'r')
axis([.04 10 .01 10])
hold on
loglog(H2,w,'g')
loglog(H3,w,'c')
xlabel('Omega')
ylabel('Frequency Response')
title('Bode plot with various K values')
legend('H1, K=1','H2, K=.09','H3, K=4')
hold off
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%creating transfer function, how the functions
%respond in time
h1=tf(b1,a1);
h2=tf(b2,a2);
h3=tf(b3,a3);
t=linspace(0,30);
[y1,t1]=step(h1,t);
[y2,t2]=step(h2,t);
[y3,t3]=step(h3,t);
%Ploting step response on bottom plot
%with respect to time
subplot(2,1,2)
plot(t1,abs(y1),'r')
hold on
plot(t2,abs(y2),'g')
plot(t3,abs(y3),'c')
legend('h1, K=1','h2, K=.09','h3, K=4')
xlabel('time(s)')
ylabel('Amplitude')
title('Step response with various K values')
```