Saying that the browser generates the symmetric key is just a simplification (at least better than saying the encryption is done with the certificate). You may be interested in this answer on Security.SE for more details:
The cipher suite then determines how these symmetric keys are eventually shared. The immediate purpose of the SSL/TLS handshake is to establish a share pre-master secret between the client and the server. This is more broadly referred to as the key-exchange (see RFC 4346 Appendix F.1.1, and perhaps Section 7.4.7).
This falls in two categories (excluding anonymous key exchange):
- RSA key exchange (e.g.
TLS_RSA_WITH_AES_128_CBC_SHA): the client encrypts the pre-master secret using the server's public key (found in the certificate).
- DH(E) key exchange (e.g.
TLS_DHE_RSA_WITH_AES_256_CBC_SHA): a Diffie-Hellman key exchange takes place. The server signs its DH parameters and the client verifies the signature against the public key in the server certificate. (Having an RSA-based certificate doesn't imply an RSA key exchange.)
At the end of the handshake, whichever of these two steps were used, the client and the server are in possession of a common pre-master secret, from which they derive a master secret (see RFC 4346 Section 8.1).
From that master secret, both parties can derive the encryption keys (and MAC secrets), as described in RFC 4346 Section 6.3.