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Q: Can be either addition subtraction division or multiplication?

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The aronym of BEDMAS is... B = Brackets E = Exponents D = Division M = Multiplication A = Addition S = Subtraction Division and Multiplication - either one can go first -same goes to Addition and Subtraction

Either pronounced 'PEMDAS' or Please Excuse My Dear Aunt Sally Another One: Parentheses Exponent Multiplication Division Addition Subtraction

All those are examples of MATHEMATICAL OPERATIONS.

One step equations?? Require one step (either addition, subtraction, multiplication, or division and only one of these) to solve for the variable.

Bodmas or BedmasBidmas stands for brackets, indices, division/multiplication, addition/subtraction.(The ones with / between them can be either way round)

BEDMAS Brackets Exponents Division Multiplication Subtraction Solve Brackets (parentheses) question first. (Ie 3(4)E2 =12E2) Then do the remaining exponents. (12E2 = 144) Division and Multiplication. Either can go first. (whichever order it appears in the question) Same with Addition and subtraction. Hope this helps!

Definately your basic math (addition, subtraction, multiplication, division, fractions, percentages) but more importantly, Geometry! Some Algebra and Calculus couldn't hurt, either. Happy adding!

The distributive property is applicably to the operation of multiplication over either addition or subtraction of numbers. It does not apply to single numbers.

It can be either.

Either or both.

subtractionthe answer of this question is division NOT SUBTRACTION!!!!!!!!!!!!!!!!!* * * * *No, it is not division either - that is the inverse function to multiplication - which is a different thing.An element y, of a set is said to be the inverse of the element x in the set if x*y = y*x = i where i is the multiplicative identity for the set. y is denoted by x-1In ordinary multiplication of numbers, i = 1.

Essentially by counting. Addition and subtraction were known more than 4000 years ago. The logic of multiplication and division were also known, but were performed by either adding or subtraction. Modern arithmetic was not possible until the invention of positional notation and the concept of zero came into being ... usually ascribed to Arab mathematicians.

Yes, the whole numbers are closed with respect to addition and multiplication (but not division).The term "whole numbers" is not always consistently defined, but is usually taken to mean either the positive integers or the non-negative integers (the positive integers and zero). In either of these cases, it also isn't closed with respect to subtraction. Some authors treat it as a synonym for "integers", in which case it is closed with respect to subtraction (but still not with respect to division).

you use BIDMAS Brackets Indices (Division Multiplication) (Addition Subtraction) the brackets always come first then Indices (to the power of) them multiply and divine have the same equality either and adding and subtracting are the same. so you would multiply 8x2=16 then you subtract 5 16-5=11.

Roman Numerals are much longer and don't have place value or anything equal to Zero. Also, it is much, much harder to use addition, subtraction, multiplication and division with roman numerals, unless you are either really clever, or allreay know the answer off by heart.

That is the commutative property of either multiplication or addition.

It could be either. How much doesn't refer to the process, it refers to the answer.

Binary operations can have commutative and associative properties. Binary operations are essentially rules that tell you how to combine two elements to make a third (they need not all be different). Addition, subtraction, multiplication and division are the more common ones. Exponentiation, taking logarithms, etc are less well known. Commmutativity implies that a * b = b * a Associativity implies that (a * b) * c = a * (b * c) and so either can be written as a * b * c Addition and multiplication of numbers are associative as well as commutative whereas division is neither. However, multiplication of matrices is not commutative.

The Four Fundamental Operations (Addition, Multiplication, Subtraction and Division) form the basis of the whole study of mathematics and numerical science. These operations form all the other operations that we use in the above specified subjects. So they are called Fundamental Operations Because the can't be derived either in the terms of themselves or any other operator.

Please Excuse My Dear Aunt Sally is an often used mnemonic for remember the order of operations.Some people use the acronym PEMDAS.Either way, the order of operations isParentheses, Exponentiation, Multiplication/Division, Addition/Subtraction

A product is the result of multiplication, and a sum is the result of addition. Multiplication and addition are alike in that multiplication is really just repeated addition. For example, to multiply 3x5 is the same as 3+3+3+3+3 or 5+5+5. These will all result in either the product of 15 or the sum of 15.

You can either explain it as "taking away" something, or as the inverse of addition, as in "how much do I need to add, to get such-and-such a result".

The normal order of evaluating operations is PEMDAS = Paretheses Exponents Multiplication Division Addition Subtraction. If any of these operations is to be carried out in a different order, you put parentheses around the operator and the numbers on either side of it.

yeah~!! fractions are 2 between the symbol of subtraction or addition to multiply the single denominator not the married denominator or either the in a relationship numerator... ehehhehehe hope it helped ~ BOLD

I think its a property in which both sides of an equation are equal either by adding, subtracting, multiplication, or division.

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