It is not possible to give a definite answer to this. It really depends on a lot of factors, including the platform (JVM version, settings, etc), the application, and the workload.
At one extreme, it is possible for an application to never trigger a garbage collector. It might simply sit there doing nothing, or it might perform an extremely long computation in which no objects are created after the JVM initialization and application startup.
At the other extreme it is theoretically possible for one garbage collection end and another one to start within few nanoseconds. For example, this could happen if your application is in the last stages of dying from a full heap, or if it is allocating pathologically large arrays.
Are we talking microseconds, milliseconds, minutes, days?
Possibly all of the above, though the first two would definitely be troubling if you observed them in practice.
A well behaved application should not run the GC too often. If your application is triggering a young space collection more than once or twice a second, then this could lead to performance problems. And too frequent "full" collections is worse because their impact is greater. However, it is certainly plausible for a poorly designed / implemented application to behave like this.
There is also the issue that the interval between GC runs is not always meaningful. For instance some of the HotSpot GCs actually have GC threads running in parallel with normal application threads. If you have enough cores, enough RAM and enough memory bus bandwidth, then a constantly running parallel GC may not appreciably affect application performance (up to a point).