Andrew Thomson is correct as far as he goes. Here's a more fulsome answer:
The first point is that if you compile code using a Java 1.7 SDK (or IDE), and try to run it on Java 1.6 (or earlier), you may run into a "magic number" error. Basically, unless the "target version" is set to the older version, the compiler will emit bytecode files that the older JVM cannot understand.
Once you have gotten past that:
The errors are detected and thrown at the point when the JVM tries to resolve the dependencies between the classes. (This is referred as "linking" in the JLS. It happens some time before the class is "initialized", but the JVM is free to implement loading and linking lazily so it might not happen instantly on application startup.
Both of these are fatal errors. They leave the JVM in a state where the application is unlikely to be able to recover because an indeterminate set of the application's essential classes are not usable.
These are examples of "binary compatibility errors". Other examples include things like missing fields, methods with the wrong signatures, some changes in access modifiers, changes to the inheritance hierarchy, and so on. (There is a whole JLS chapter that deals with the binary compatibility rules; i.e. what you can and can't change in a class without breaking compatibility.)
This is all common sense really. If you attempt to call a method that isn't there or use a class that isn't there, bailing out with a fatal error is the only safe thing to do. There are practical limits to "write once, run anywhere".
If you want a simple example, try running an application that uses
String.isEmpty() on a Java 1.5 or earlier JVM. (Or an early release Android phone ...)
You won't get a
ClassNotFoundException. That is only thrown when you attempt to load classes using