% dThXYdS(1) = Theta, dThXYdS(2) = R(t) = x, dThXYdS(3) = Z(t)
H = 10;
dThXYdS = @(t,ThXY) [-sin(ThXY(1))/ThXY(2) + ThXY(3) - 2*H; cos(ThXY(1)); sin(ThXY(1))];
x0 = [0.1; 0.1; 0];
Tspan = [0:0.01:2]';
[T ThXY] = ode45(dThXYdS, Tspan, x0);
figure(8)
plot(ThXY(:,2), ThXY(:,3))
xlabel('R(S)')
ylabel('Z(S)')
grid
Except for the axis labels in the plot, I used the variable designation from your previous post (and my previous answer) rather than change it to match your current variable designation.
The reason you are getting a matrix of NaNs is that your initial conditions are [0 0 0]. So R is zero when theta is zero and of course sin(theta) will be zero as well. By convention, (0/0) = NaN. An initial NaN in a recursive calculation such as yours creates a matrix of NaNs.
