The multiplicative and additive identities, possibly.
The binary system uses the digits 0 and 1
each 1/0 is called a bit, 8 bits = a bite
Bit, short for Binary Digit.
The system of numbering using only 0 and 1 is called binary. In decimal moving right to left each column is 10 times greater than the last. So 1345 = 1000+300+40+5 In binary moving right to left each column is twice as large. Below you will see some examples. 8 4 2 1 0 0 0 1 = 1 0 0 1 0 = 2 0 0 1 1 = 3 0 1 0 0 = 4 0 1 0 1 = 5 1 0 0 1 = 9 1 1 1 1 = 15
It is called the binary system. It uses only 2 numbers. The numbers are "0" and "1" This is a computer language. Base 10 is our regular number system... consisting of 10 numbers from 1-9 including 0
1 and -1 pairs called = 0
The given system of equations can be represented by the following augmented matrix: ⎡1 0 2 a² 3 | b ⎤ ⎢0 a b 0 1 | a ⎥ ⎢0 0 0 a 0 | b²-1⎥ For the system to be inconsistent, there must be a row in the augmented matrix where all the coefficients of the variables are zero, but the constant term is non-zero. In other words, there must be a row of the form [0 0 0 0 | k], where k is a non-zero constant. Looking at the third row of the augmented matrix, we can see that if a = 0 and b²-1 ≠ 0, then the system will be inconsistent. This means that a = 0 and b ≠ ±1. Thus, for all values of a = 0 and b ≠ ±1, the system is inconsistent.
Logic 0 and logic 1 are the two states in digital (or binary) logic. A binary numbering system has but two numbers: 0 and 1. In contrast, we use a decimal system with 10 numbers: 0 to 9. The area of algebra that addresses binary (2-state) logic is called Boolean. In Boolean a logic 0 may be refered to as 'low', 'off' or 'false'; a logic 1 as 'high', 'on' or 'true'. Boolean logic is the foundation of digital electronics.
0 + 0=0 1 + 0=1 1 + 1=0 (with a carry of 1) for more info contact 0844357080
AnswerAnswer: ( 0! + 0! + 0! + 0! + 0! ) ! = 120 Explanation: Here we have used operator called " factorial ". As you know that 0! = 1 so, = ( 0! + 0! + 0! + 0! + 0! ) ! = ( 1 + 1 + 1 + 1 + 1 ) ! = (5 )! = 120 : ( 0! + 0! + 0! + 0! + 0! ) ! = 120 Explanation: Here we have used operator called " factorial ". As you know that 0! = 1 so, = ( 0! + 0! + 0! + 0! + 0! ) ! = ( 1 + 1 + 1 + 1 + 1 ) ! = (5 )! = 120
3 for a win. 1 for each goal up to 3. 1 for a draw/tie. 0 for a loss :)
0 and 1