📖 Samacheer Kalvi · 11th TN - English Medium · Computer Applications · Page 21question

2.3 Different Types of Number Systems · Part 5

Chapter 2: Chapter 2 · Computer Applications

The integer part is either or . Step : Discard the integer part of the previous product. Multiply the fractional part of the previous product by . Repeat Step until the same fraction repeats or terminates ( ).

Step : The resulting integer part forms a sequence of 0s and 1s that become the binary equivalent of decimal fraction. Step : The final answer is to be written from first integer part obtained till the last integer part obtained. Integer part . × = .

(first integer part obtained) . × = . . × = .

(last integer part obtained) Note: Fraction repeats, the product is the same as in the first step. Write the integer parts from top to bottom to obtain the equivalent fractional binary number. Hence ( . ) =( .00110011…) = ( .00110011) Workshop .

Convert the following Decimal numbers to its equivalent Binary, Octal, Hexadecimal. ) ) ) . . Binary to Decimal Conversion To convert Binary to Decimal we can use positional notation method.

Step : Write down the Binary digits and list the powers of from right to left(Positional Notation) Step : For each positional notation written for the digit, now write the equivalent weight. Step : Multiply each digit with its corresponding weight Step : Add all the values. Table . Positional Notation and Weight Positional Notation Weight Positional Notation Weight Example Convert (111011) into its equivalent decimal number.

Weight Positional Notation Given number Chapter Page + + + + + = ( ) (111011) = ( ) . . Binary to Octal Conversion Step : Group the given binary number into bits from right to left. Step

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