Since this appears to be an assignment, I'm not going to give you the answer in C#. I will explain the algorithm and give a solution in Python.

The Caeser Cipher works by shifting an alphabet "N" number of spaces. If you have an alphabet set up in an array:

```
array = ["A","B","C","D","E","F","G","H","I","J","K","L","M","N","O","P","Q","R","S","T","U","V","W","X","Y","Z"]
```

This is an easy way to manipulate the alphabet to see what different shifts would look like.

The next thing to do is to count the number of occurrences of each letter in the cipher:

```
count = {}
encrypted_string = "HVWGWGHVSPSGHQCADIHSFSLSFQWGSWVOJSSJSFSLDSFWSBQSR"
for s in encrypted_string:
if count.has_key(s):
count[s]+=1
else:
count[s] = 1
most_occured = 1
last_found = ""
for key in count:
if count[key] > most_occured:
last_found = key
most_occured = count[key]
```

This is important because since the Ceasar Cipher uses a normal alphabet shifted, the resulting ciphertext can be figured out by frequency analysis, just as a normal alphabet can.

In the English language, the letter "E" appears most often. It stands to reason that there's a good chance the letter that will appear most often in your cipher text will be a shifted letter that corresponds to "E".

Since `S`

appears most frequently in your cipher text (a total of 13 times), and given that we know that `E`

occurs most often in the english language we know that `S`

is likely `E`

.

Given also that we know this is a Caesar Cipher, we can assume the rest of the letters are shifted just like `S`

was shifted. and `E`

is the 5th letter, we can do the following math:

Position in Alphabet of Most Occurring letter in Cipher text - Position of most occuring letter in alphabet = Number of places to shift ciphertext to decrypt

Or, more succinctly:

Position of "S" - Position of "E" = 14:

19 - 5 = 14

That means that every letter should be left shifted by 14 places:

```
decrypted_string = ""
for s in encrypted_string:
decrypted_string += array[array.index(s)-14]
print decrypted_string
```

This outputs the following deciphered text:

THISISTHEBESTCOMPUTEREXERCISEIHAVEEVEREXPERIENCED

I've purposefully left a few things out, for instance how to actually do the calculation where I've hardcoded "14" in the second algorithm. Some items need to be left up to those conducting the assignment. There is also probably a faster and easier way to do some of the things I did; I was doing this for fun.