A bit is the most basic unit of data in computing and can represent two values: 0 and 1. These two numbers correspond to the binary system, where 0 typically represents "off" and 1 represents "on." In digital logic, bits are used to encode information and perform operations.
16 bit
78 42 are, as far as I can make out, two numbers. They do not make a triangle.78 42 are, as far as I can make out, two numbers. They do not make a triangle.78 42 are, as far as I can make out, two numbers. They do not make a triangle.78 42 are, as far as I can make out, two numbers. They do not make a triangle.
9
You must add either two odd numbers or two even numbers.
The numbers are: -5 and 3
No two prime numbers can make 30.No two prime numbers can make 30.No two prime numbers can make 30.No two prime numbers can make 30.
16 bit
78 42 are, as far as I can make out, two numbers. They do not make a triangle.78 42 are, as far as I can make out, two numbers. They do not make a triangle.78 42 are, as far as I can make out, two numbers. They do not make a triangle.78 42 are, as far as I can make out, two numbers. They do not make a triangle.
5 and -3
A signed 16 bit number can represent the decimal numbers -32768 to 32767.
A 2-bit parallel full adder is a digital circuit that adds two 2-bit binary numbers along with a carry input, producing a 2-bit sum and a carry output. It consists of two full adder circuits, each handling one bit of the two numbers, along with a carry input from the previous less significant bit. The outputs include a 2-bit sum (S1, S0) and a carry-out (Cout) that indicates if there was an overflow. This design allows for efficient addition of binary numbers in parallel rather than sequentially.
There are two consecutive even numbers: 4,752 and 4,754.
9
6 and 10 are triangular numbers that make 16.
write it in 8085
No such numbers exist; the product of two odd numbers is always odd.
You must add either two odd numbers or two even numbers.