## Table of content

- What is “Secret Key Cryptography”?
- Secret Key Cryptography Examples
- Why do we use Secret Key Cryptography?
- What is the difference between public-key and private-key cryptography?
- Future of Cryptography

**What is Cryptography?**

Data hiding or encrypting so that only the intended recipient can interpret it is known as cryptography. Messages have been encrypted via cryptography since the dawn of time. These days, e-commerce, password management, and card payments all make use of this technology.

Before moving on to the privacy of Secret Key Cryptography, let’s take a quick look at the topics that will be covered.

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**What is “Secret Key Cryptography”?**

- A set of bits known as the secret key is used in secret key cryptography to decipher the plaintext message to be encrypted.
- The same key is employed to decipher the text message: that’s why it is also called a symmetric key.
- Since it is the first understandable message or piece of data delivered into the encryption process as input, the secret key is also a component of the encryption algorithm in cryptography.
- An algorithm value called the main, has nothing to do with plaintext. The method yields various results depending on the key. The method uses the secret to precise transformation and replacement.
- The same letter can have two different ciphertexts generated by two separate keys. Currently, the ciphertext is a stream of almost random data.

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**Secret Key Cryptography Examples**

- A quick and easy way to encrypt texts is to swap out each letter for one from a different alphabetic letter. The quantity of places is crucial. The phrase “This is an example” can be encrypted with the key “1 position,” for instance, in the encrypted message “Uijt jt bo fybnqmf.” The original message would be repeated if the letter was taken one position higher in the alphabet.
- The stability of this apparatus is not great. There are just 26 potential keys in all. Only one key should be tried by Eve to determine which one generates a legible message. Furthermore, it is commonly known that some letters are used in communications more frequently than others.
- For instance, the letter “e” would be most frequently used in the English language. This fact might be used by Eve to count the number of times the letter “e” occurs in the encryption algorithm and change it with it. In particular, she is cognizant of how many spins are necessary to switch from “e” to the encoded counterpart of “e,” thus she can solve the problem right away.

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**Why do we use Secret Key Cryptography?**

- Secret key cryptography may be effective after the secret key distribution problem is solved. Algorithms can easily encrypt data and are incredibly safe. The preponderance of sensitive information sent over an SSL session is encrypted using a secret key.
- Secret-key cryptography is a useful technique. The techniques encrypt data rapidly and with exceptional privacy. Secret-key cryptography is used to send much of the confidential information sent during a TLS transaction.
- Because a single key is used to encrypt and decrypt data, secret key cryptography is sometimes referred to as symmetric cryptography.
- Data Encryption Standard (DES), triple-strong DES (3DES), Rivest Cipher 2 (RC2), and Rivest Cipher 4 are examples of cryptographic algorithms (RC4).

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**What is the difference between public-key and secret key cryptography?**

Parameters | Public Key Cryptography | Secret Key Cryptography |

Algorithm | The shared private key is used to decrypt data once it has been encrypted with the public key. | A Secret Key is used to secure and decode, which is shared here between the sender and the receiver of cipher text. |

Effectiveness | The standard has declined. | The mechanism currently operates more effectively. |

Secret | There is no charge, whatsoever to utilize the public key. | The secret has been disclosed to all parties participating in the discussion. |

Form | Since the two keys that make up the public key mechanism are utilized for different purposes, it is said to be asymmetric. | Given that only one key is shared by the two parties, the secret key technique is known as being symmetric. |

Access | The public key is accessible to everyone. | Two people have possession of the secret key. |

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**Future of Cryptography**

To secure data on our computers, mobile devices, and communication networks today, current encryption uses “keys.” Almost every firm is using Cryptography and encryption, and it will expand extensively in the future. Data is protected from malicious use via encryption, which turns it into digital nonsense. For a computer or mobile device to process the data, it must first be decrypted. The message’s recipient needs the proper keys in order to accomplish this.

**Conclusion**

Both secret-key and public-key cryptography make use of a preset cryptographic key or set of keys. A key is a group of bits used to encrypt and decrypt data by a cryptographic method or algorithms. In that, only the proper key may unlock the lock, a cryptographic key is comparable to a lock key.

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