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Answered 2012-08-06 12:27:37

They are whole numbers used in division, multiplication, addition and subtraction.

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Addition and multiplication are operations on integers that are commutative.



There are very many operations which can be defined on integers. Some examples are: addition, subtraction, multiplications, division, reciprocation, exponentiation, powers, root, logarithms, change of base.


basic opration of inntegers


add, subtract, multiply, divide


I am not sure there are any fundamental operations of integers. The fundamental operations of arithmetic are addition, subtraction, multiplication and division. However, the set of integers is not closed with respect to division: that is, the division of one integer by another does not necessarily result in an integer.


Because different operations with different integers give different answers.


There are an infinite number of operations for integer and different rules will apply for different operations. The question needs to be more specific.


All numbers - integers as well as non-integers - are combined using different mathematical operations. Some operators are binary: that is, they combine two numbers to produce a third; some are ternary (combine 3 to produce a fourth) and so on.The set of integers is closed under some operations: common examples are addition, subtraction, multiplication, exponentiation. But not all operators are: division, for example.


I am not at all sure that there are any rules that apply to integers in isolation. Any rules that exist are in the context of binary operations like addition or multiplication of integers.




coded instructions (e.g. arithmetic operations, logical operations, branchs, I/O operations)coded data (e.g. integers, real numbers, logicals, pointers, text)


Pointers in C are stored as integers. You can perform any mathematical operations on pointers that you can perform on ints.Of course not, the following operations are possible: =, +, +=, ++, -, -=, --, *, [], ->, typecast


Give us the expression, and we'll have our staff begin work on it.


There is no "operation of integers".There are some operations that can be defined for single integers such as: additive inverse (= negative), multiplicative inverse (= reciprocal, not defined for 0), absolute value, square, cube, nth power, square root (if non-negative), cube root and so on.Then there are operations that can be defined for two integers, such as sum, difference, absolute difference, product, quotient (if the second integer is not 0), exponent, logarithm of one to the other as base (if they are both positive), and so on.


Some do, some don't. The operations are equivalent and people do what they are more comfortable with.


Math! More specifically, depending on the level, you might study basic operations (addition, subtraction, multiplication, division) with integers; basic operations with decimals; basic operations with fractions; basic operations with negative numbers; percentages; ratio and proportion; algebra; calculus; trigonometry; and many others more.


Just do the operations as you usually would, for example: a = 1 + 2; b = 3 * 5; c = b / a; etc. (Note that all variables must be declared.)


Remember PEMDAS; please excuse my dear aunt Sally. Parentheses, exponents, multiply, divide, add, and subtract.


You don't say that "an integer is closed". It is the SET of integers which is closed UNDER A SPECIFIC OPERATION. For example, the SET of integers is closed under the operations of addition and multiplication. That means that an addition of two members of the set (two integers in this case) will again give you a member of the set (an integer in this case).


They are different operations, giving different results. Example: 1+1=2, 1*1=1.


Negative integers, zero and the positive integers, together form the set of integers.


2436 and 1624 are integers, not fractions. And, as integers, they are unequal.2436 and 1624 are integers, not fractions. And, as integers, they are unequal.2436 and 1624 are integers, not fractions. And, as integers, they are unequal.2436 and 1624 are integers, not fractions. And, as integers, they are unequal.


Integers, probably.Integers, probably.Integers, probably.Integers, probably.



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