I'm afraid you're probably going to have to clarify your question a bit, but I'll take a stab at answering anyway:
WebGL can support, effectively, as many different shaders as you want. (There are of course practical limits like available memory but you'd have to be trying pretty hard to bump into them by creating too many shaders.) In fact, most "real world" WebGL/OpenGL applications will use a combination of many different shaders to produce the final scene rendered to your screen. (A simple example: Water will usually be rendered with a different shader or set of shaders than the rest of the environment around it.)
When dispatching render commands only one shader program may be active at a time. The currently active program is specified by calling
gl.useProgram(shaderProgram); after which any geometry drawn will be rendered with that program. If you want to render an effect that requires multiple different shaders you will need to group them by shader and draw each batch separately:
// Setup shader1 uniforms, bind the appropriate buffers, etc.
gl.drawElements(gl.TRIANGLES, shader1VertexCount, gl.UNSIGNED_SHORT, 0); // Draw geometry that uses shader1
// Setup shader2 uniforms, bind the appropriate buffers, etc.
gl.drawElements(gl.TRIANGLES, shader2VertexCount, gl.UNSIGNED_SHORT, 0); // Draw geometry that uses shader2
// And so on...