Actually, those casts are obvious marks of something unsual going on in the code, so in a perfect world, you shouldn't use them.
But in some cases they are the right tool for the job.
For static_cast, there are basically 2 cases:
1. Primitive conversion.
When you really need some integer number to be processed in a calculus involving floats.
float ratio = static_cast<float>( pixel_pos.x ) / static_cast<float>( pixel_pos.y ); // x and y are integers because pixel positions are absolute, but we need to get a floating point value here
2. You got an object from some external API and you want to get the specific child-type.
Thing* thing = factory.create( "shoe" ); // Even if I don't have it's real type, I know it's a shoe!
Shoe* shoe = static_cast<Shoe*>( thing ); // I need to use Shoe interface so lets cast it.
If you designed the system, maybe you could have done it better to avoid the cast. But if you didn't and the API you're using provide the base type as a way for you to work with it, then you don't have any other choice than to cast.
static_cast is useful also because it lets you assume something at compile time, so you should use it first because it requires you to be sure about what you are doing.
3.You don't know what is the real type of the object.
However, there is a specific case when you need to know the real type at runtime because there is no way for you to know it at another time. Typical case is when you're receiving some kind of objects from an external system and there is no other information about the real type of the object
void on_something_happen( const Event& event ) // callback triggered when an event occured in the library system this callback is plugged in
// here I want to manage two cases
ThingEvent* thing_event = dynamic_cast<ThingEvent*>( &event );
if( thing_event )
// do my thing
// ok this event HAVE TO be a FooEvent, otherwise this should crash
FooEvent& foo_event = dynamic_cast<FooEvent&>( event );
// do my thing