In any standard symplectic geometry/topology textbook, the concept of Hamiltonian isotopy was introduced:

   $(M, \omega)$ is a sympplectic manifold. Given a symplectic isotopy
$\phi_t : M \rightarrow M.$ It is generated by a unique family of vector fields 
$X_t: M \rightarrow TM$ such that $$\frac{\mathrm{d}}{\mathrm{dt}}\phi_t = X_t \circ \phi_t.$$

   The vector fields$X_t$ are symplectic vector fields. 

   When $$\iota(X_t)\omega = dH_t$$ for a smooth family of Hamiltonian functions $H_t: M \rightarrow \mathbb{R}, $ the isotopies above is called Hamiltonian.

   My question is: How do we 'visualize' the relation between the Hamiltonian functions $H_t$ and the symplectomorphisms $\phi_t$ in the isotopy? What are some of the good contexts in which Hamiltonian isotopies are used?