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Then they are, simply, two different integers. Any two positive integers will do, according to the specification.

Then they are, simply, two different integers. Any two positive integers will do, according to the specification.

Then they are, simply, two different integers. Any two positive integers will do, according to the specification.

Then they are, simply, two different integers. Any two positive integers will do, according to the specification.

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Q: What is b and a if both are positive integers but a does not equal b?

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When one or both of the integers is/are zero.a*b=0 if a=0, b=0, or both a and b are equal to 0. In other words, if one or both integers are zero.

10000 = 16 x 625

a positive integer A that, if increased or decreased by the same positive integer B, yields 2 positive integers, A+B and A-B, that are both perfect squares" OK... i figured out kinda what it meant... i think the integer B is equal to A-1, like the rectangular number definition: n(n-1)

Given Positive Integers a and b there exists unique integers q and r satisfying a=bq+r; 0 lesser than or equal to r<b

No. All integers (positive And negative) are rational numbers (not irrational). A rational number can be expressed as a/b, where a & b are both integers, and b is nonzero. So the integer -3 can be expressed as a/b, where [a = 3, and b = -1] for example, or [a = -6 and b = 2].

The two integers are A and A+40 or, equivalently, B and B-40.

When their signs are the same.

The sum of two positive integers is never zero. The sum of two numbers a and b can only be zero if a=-b, or a=0 and b=0. Since 0 is not a positive integer, and a and b cannot both be positive integers if a=-b, then it is impossible for the sum of two positive integers to be zero. _______________________________________________________________ The above answer is correct. Here is another way to say it: An integer is any whole number including negative numbers, positive numbers and zero. However, a "positive integer" is a whole number greater than zero. The "sum of two positive integers" means you are adding two numbers greater than zero together. Therefore, the sum of two positive integers can never be a negative integer, and can never be zero. Example: 1 + 1 = 2

It's equal to positive b squared, or (b x b) .

Rational fractions of the form a/b where both a and b are integers, b > 0 and, in its simplified form, the denominator is not 1.

Rational number

rational number

Yes.Suppose a and b are two positive rational numbers. Then a can be expressed in the form p/q where p and q are positive integers, and b can be expressed in the form r/s where r and s are positive integers.Then b - a = r/s - p/q = (qr - ps)/qs.Now, since p, q, r and s are integers, thenby the closure of the set of integers under multiplications, qr, ps and qs are integers;q and s are positive => qs is positive, andby the closure of the set of integers under addition (and subtraction), qr - ps is an integer.That is, b - a = (qr - ps)/qs is a ratio of two integers, where the denominator of the ratio is positive.

Complex number... though a and b don't have to be integers, and if a = 0 then it's a pure imaginary number.

Zero is a rational number. It is because, it can be written as 0/1, which is in the form a/b where, a and b (here a = 0 and b = 1) are both integers and b is not equal to 0.

"B" or "O"positive

Both parents A = child can be A or O but not B usually, not 100% certainty...

yes. you are right. both parts of the question has to be equal.

Any negative integer can be factored to -1 times its positive value. Because negative one times itself is positive one, when multiplied by each other they cancel out. So if you're multiplying a negative integer A by a negative integer B. Replace A and B with -1*|A| and -1*|B| (You can do this because you know A and B are negative), and use the distributive property to rearrange them. Now you can see the -1*-1 term and equate it to 1, leaving only the |A| and |B| behind. Because two positive numbers multiplied together are always positive, the result will always be positive. Represented algebraically, as long as A and B are negative integers, the following is true: AB = -1|A|*-1|B| = -1*-1|AB| = |AB|.

If a and b are integers, then a times b is an integer.

641

Yes. Because, the parents could both be B Rh positive O Rh positive. But, if the parents did not both have O Rh positive then, no.

If there both b positive, then probally not. But if the dad was a b positive and the mum was an a positive then there would be a 50/50 chance of tem having an ab positive.

Both sets of parents can have B positive blood and still give birth to an O positive child. B positive blood can be BB or BO. If both parents are BO positive, they have a 25% chance of having an O positive child.

Yes. One third is 1/3, where both one and three are integers, therefore 1/3 meets the definition of rational numbers, which can be expressed as a fraction a/b where both a and b are integers and b is not 0.