Example-A: (2 - 1) is not equal to (1 - 2)
Example-B: (4,000 - 87) is not equal to (87 - 4,000)
The expected answer is probably difference, whereas it should be "ordered difference". This is because addition is commutative but subtraction is not. That is to say, addition of 3 and 4 gives the answer 7, whether it is calculated as 3 + 4 or as 4 + 3. However, the result of subtraction of 3 and 4 depends on whether you calculate 3 - 4 (= -1) or 4 - 3 (= 1). The difference, in either case is 1 but the ordered difference is the figure in the bracket. .
The commutative property holds for all numbers under addition, regardless of whether they are positive or negative - the sign of the number stays with the number, for example: -2 + 5 = (-2) + 5 = 5 + (-2) = 5 + -2 -2 + -5 = (-2) + (-5) = (-5) + (-2) = -5 + -2 Subtraction is not commutative, but when subtraction is taken as adding the negative of the second number, the commutative property of addition holds, for example: 5 - 2 ≠ 2 - 5 but: 5 - 2 = 5 + -2 = 5 + (-2) = (-2) + 5 = -2 + 5
The answer depends on whether xy are commutative numbers or operators in a permutation group.
No, you cannot have subtraction in the associative property of multiplication because the associative property of multiplication is about multiplication. More to the point, if you're asking whether subtraction is associative, the answer is still no. (2 - 3) - 4 does not equal 2 - (3 - 4)
The commutative property for any two numbers, X and Y, is X # Y = Y # X where # can stand for addition or multiplication. Whether the numbers are written as integers, rational fractions, irrationals or decimal numbers is totally irrelevant.
It depends whether it is a subtraction, mulitplication, addition, or division problem.
The rule(s) depend on whether you are looking at multiplication/division, addition or subtraction.
Whether you multiply 6 times 8, or 8 times 6, you will get the same answer in either case (which is 48). The order in which the numbers are presented does not change the result.
following are examples of typical economic decisions made by the managers of a firm. determine whether is an example of what, how, and when?
A language is decidable if there exists an algorithm that can determine whether any given input belongs to the language or not. To demonstrate that a language is decidable, one must show that there is a Turing machine or a computer program that can correctly decide whether any input string is in the language or not, within a finite amount of time.
It is so too equal! Multiplication is commutative. Unless A and B are matrices. Matrix multiplication is NOT commutative. Whether or not AxB = BxA depends upon the definition of the binary operator x [multiply] in the domain over which it is defined.
To provide examples of how you have previously demonstrated skills, knowledge and behaviors that are required for this job is a common question that is asked on a job application form. This question is important to employers as it can help them ascertain whether or not a candidate could be a good fit for their company. It could be the deciding point as to whether or not to invite a candidate to interview, depending upon the answer given.