Public key encryption is based on having two different keys, each able to decrypt the message by the other. The private key cannot be guessed by just knowing the public key, so there is one you keep and one you make public.
There are two uses for the strategy
People can encrypt messages that only on person is supposed to read. So let's say it's like a locked mailbox, only you can open, but other people can send you messages.
The other use is for signing documents, now instead of people using our public key to encrypt the message, you technically encrypt you message with you private key. Now since only you have that key, if someone tries to decrypt it with your public key they know your the one who sent it, if that message comes back making sense of course.
An example of this would be SSL, where both parties using a combination of public and private keys and other symmetric methods determine each other to be who they say they are.
Using RSA as an example, each key is an exponent which the bases are certain size blocks raised to the power of that exponent.
- First you take block plain text^key1mod N to encrypt = ciphered block
- Then you take ciphered block^key2mod N = plain text
N is a value determined by the RSA algorithm
These are all distilled down examples to give a summary of how it all basically works
Note that in RSA you don't decided which one is public or private, it is specified by the algorithm for generating keys.