First of all, like every OpenGL state, the state set with
glVertexAttribPointer keeps unchanged until someone else calls
glVertexAttribPointer again (for the same attribute index). But the important thing here is, that the internal state changed with
glVertexAttribPointer doesn't just store the buffer offset to be used for rendering, offsetting into the VBO bound when calling
glDraw.... It also stores the actual buffer object bound when calling
So yes, whenever you want your vertex data sourced from another VBO, you need to bind this VBO and do the appropriate
glVertexAttribPointer calls while this VBO is bound. While this may seem cumbersome in your case, this is in fact a good thing. This way you don't need to worry about the currently bound buffer when rendering something, but only about the things set up with
glVertexAttribPointer. And even more important it let's bind a different VBO before rendering, thus you can source different vertex attributes from different VBOs in a single render call (how else would you do that?).
EDIT: You can however use Vertex Array Objects to ease the process of setting up your vertex data. They encapsulate all the state neccessary for rendering from a bunch of arrays (and thus all the things changed by
gl(En/Dis)ableVertexAttribArray and the buffer bound to
GL_ELEMENT_ARRAY_BUFFER, but like said, not the buffer bound to
GL_ARRAY_BUFFER). You still have to properly bind the buffer before calling
glVertexAttribPointer of course. But using a VAO you only need this code in some set up routine and all you need to do for rendering is calling
glBindVertexArray. Though I don't know if your particular ES device supports them.