Tools for translation are constantly popular and useful for assisting people of many languages in understanding a concept. We’ve also had experience utilizing these useful techniques to improve conceptual comprehension and reduce difficulties.
In this post, we will discuss a translator that increases the security of our data, as well as a few examples that offer simple arguments for how we convert and decode the input.
What is a binary translator?
The binary translator translates the machine language into human understanding language. A human cannot understand binary language and it’s quite difficult for a human to decode it.
It is quite easy to convert from binary and text. The ASCII standard defines all of the typical textual characters that you encounter on computers. The 128-character limit is defined by the standard, including all the letters and numbers on an ordinary English keyboard.
These characters each have a number between 0 and 127.
(Note it only goes to 127 since we start counting at 0, not 1).
How a text is converted into binary?
To convert the text into binary code (ASCII code):
- Get charters one by one.
- Get the corresponding character from the ASCII table.
- We get the decimal value
- Finally, we translate the decimal into binary.
The safety of data:
Nowadays we are very insecure about data loss. The data in binary code is hard to decode. So for safety, we convert our data into binary language.
The major advantage of binary is that it can be easily represented by electrical equipment. Additionally, simple to use, requiring fewer calculations, and with lower computational error rates than other coding systems is the binary number system.
How do convert decimals into binary?
The decimal number is the value whose base is 10. If we want to convert the values into binary we have to divide it by 2. Let’s understand with the help of an example
(89)10 = (1011001)2
2 | 89 |
2 | 44-1 |
2 | 22-0 |
2 | 11-0 |
2 | 5-1 |
2 | 2-1 |
2 | 1-0 |
How to convert the binary value into text?
(01100100)2 = (100)10
27*0 + 26*1 +25*1 + 24*0 + 23*0 + 22*1 +2*0+20*0
64 + 32 + 4 =100
So, the text of cross ponding is d.
Example 1:
Convert the text Great into a binary code.
Solution:
Step 1: We translate each alphabet one by one. Let’s start with G
The hexadecimal value of G is 47 and in binary it is 01000111.
Step 2: The next alphabet is “r” and has a binary code that is 011100010 and the hexadecimal value is 72.
Step 3: The next alphabet is “e” which has a binary code that is 01100101 and the hexadecimal value is 65.
Step 4: The next alphabet is “a” which has binary code 01100001 and the hexadecimal value is 61.
Step 5: The next alphabet is “t” which has a binary code 01110100 and the hexadecimal value is 74.
Step 6: So the binary code of the text Great is
01000111 01110010 01100101 01100001 01110100
You can also get the conversion of one language means binary to text and text to binary with the help of a binary translator.
As enter the value in the above box and with just one click, you get all data that is translated into binary or if the values are in the form of binary then it will be decoded into text.
Example 2:
Convert the binary code 01000111 01001111 01000100 00100000 01001001 01010011 00100000 01001111 01001110 01000101 into text.
Solution:
Translate the binary 01000111 01001111 01000100 00100000 01001001 01010011 00100000 01001111 01001110 01000101 into the text format.
Solution:
Step 1: The binary code is converted into text one by one
The 01000111 is converted into text as G.
Step 2: Next, the code 01001111 is converted into text as O.
Step 3: The binary code 01000100 is converted to D.
Step 4: The binary code 00100000 is converted as space.
Step 5: The code 01001001 is converted as I.
Step 6: The code 01010011 is converted to S.
Step 7: The code 00100000 is translated as space.
Step 8: The code 01001111 is translated as O.
Step 9: The code 01001110 is translated as N
Step 10: The code 01000101 is translated as E.
Step 11: Hence overall the code is translated as GOD IS ONE
Conclusion
In this post, we have learned about the binary translator and explained the conversion of text into binary and decoding the binary code into text.