XOR the ciphertext together to eliminate the key as you suggest. The result will be two plain texts XOR-ed together.

Now it becomes a matter of detecting a pattern within this data. It is possible to do this by examining the encoding. ASCII letters always have a certain bit pattern, e.g. `'A'`

is `41`

in hexadecimals or `0100 0001`

in binary and 'a' is `61`

in hexadecimals or `0110 0001`

. So if XOR'ed together you will get something like `0010 0000`

. Notice the high number of bits set to zero. Also note that two ASCII encoded letters XOR-ed together will start with two zero valued bits.

Finally, text uses a lot of spaces, which are encoded using the value `20`

in hexadecimal or `0010 0000`

in binary. When XOR-ed with any letter it will return a different case, but the result will still be a letter. When XOR-ed with itself it will become a `0000 0000`

binary value (just like any character encoding XOR-ed with itself).

With enough ciphertexts it is possible to get the plain text and the key; with just 2 ciphertext this is probably not attainable. That's probably the next assignment.