Decimal to binary conversion is the process of transforming a number from the decimal system (base-10) to the binary system (base-2). This conversion is fundamental in computer science and digital systems, as computers operate using binary code.
The formula for converting a decimal number to binary is:
\[D_{10} = \sum_{i=0}^{n} b_i \cdot 2^i\]
Where:
To convert a decimal number to binary:
Let's convert the decimal number 13 to binary:
\[ \begin{align*} 13 \div 2 &= 6 \text{ remainder } 1 \\ 6 \div 2 &= 3 \text{ remainder } 0 \\ 3 \div 2 &= 1 \text{ remainder } 1 \\ 1 \div 2 &= 0 \text{ remainder } 1 \end{align*} \]
Reading the remainders from bottom to top, we get: 1101
Therefore, \(13_{10} = 1101_2\)
This visual representation illustrates the conversion of the decimal number 13 to its binary equivalent 1101. The arrow indicates the transformation from base-10 to base-2, demonstrating how a decimal number can be represented using only 0s and 1s in the binary system.
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