This doesn't apply to RSA specifically, but: any secure cipher will give output close to indistinguishable from a random bit pattern. A random bit pattern has, per definition, maximum information theoretic entropy, since for each bit, both 0 and 1 are equally likely.

Now, you want a lossless compression scheme, since you need to be able to decompress to the exact data you originally compressed. An optimal compression scheme will maximize the entropy of it's output. However, we know that the output of our cipher already has maximum entropy, so we can't possibly increase the entropy.

And thus, trying to compress encrypted data is useless.

*Note*: Depending on your encryption method, compression might be possible, for example, when using a block cipher in EBC mode. RSA is a completely different beast altogether though, and, well, compressing won't do anything (except quite possibly make your final output bigger).

*[Edit]* Also, the length of your RSA ciphertext will be in the order of `log n`

. With `n`

your public modulus. This is the reason that, especially for small plaintexts, public key crypto is extremely 'wasteful'. You normally employ RSA to setup a (smaller, e.g. 128-bit) symmetric key between two parties and then encrypt your data with a symmetric key algorithm such as AES. AES has a block size of 128 bits, so if you do straightforward encryption of your data, the maximum 'overhead' you incur will be `length(message) mod 128`

bits.