The representation of numbers, Negative numbers – HP 33s User Manual

10–4

Base Conversions and Arithmetic

The Representation of Numbers

Although the display of a number is converted when the base is changed, its
stored form is not modified, so decimal numbers are not truncated — until they are
used in arithmetic calculations.

When a number appears in hexadecimal, octal, or binary base, it is shown as a
right–justified integer with up to 36 bits (12 octal digits or 9 hexadecimal digits).
Leading zeros are not displayed, but they are important because they indicate a
positive number. For example, the binary representation of 125

10

is displayed as:

1111101

which is the same as these 36 digits:

000000000000000000000000000001111101

Negative Numbers

The leftmost (most significant or "highest") bit of a number's binary representation
is the sign bit; it is set (1) for negative numbers. If there are (undisplayed) leading
zeros, then the sign bit is 0 (positive). A negative number is the 2's complement of
its positive binary number.

Keys:

Display:

Description:

546

{ x

{%}

 Enters a positive, decimal

number; then converts it to
hexadecimal.

^

 2's complement (sign

changed).

{ x

{}

    Binary version;

§

indicates more digits.

˜˜

 Displays the leftmost

window; the number is
negative since the highest
bit is 1.

{ x

{}

. ) 

Negative decimal number.