One rule is that the product of two integers with unlike signs will have a minus sign for the product.
It is positive.
The product or quotient of two numbers that have the same sign is positive. The product or quotient of two numbers with different signs is negative.
-- If the two integers have the same sign, their quotient is positive. -- If the two integers have different signs, their quotient is negative.
When multiplying integers, multiplying by the same sign will always produce a positive integer. Such as a negative times a negative equals a positive. If the signs are different then the product will be a negative.
signs are different.... Find the difference.... KEEP THE LARGER SIGN signs are the same... COMBINE AND KEEP THE SIGN
What is the product of three same sign of integers
Adding two numbers with different signs means subtracting the two absolute integers (without sign) and vice versa.
-- write the difference between the integers without regard to their signs -- give the difference the same sign as the larger of the two integers
I have no idea that the product could be musical! If the two numbers have the same sign, the product is positive. If two numbers have different signs the product is negative.
Just multiply without the sign. Then add a minus sign to the result.
To find the Quotient and Product of two integers this is how it works if the two numbers are the same sign then it would be a postivite answer but if the two number has different signs the answer would be negative but that is only with muilty and divison
-- Their sum and difference both have the same sign that the two integers have. -- Their product and quotient are both positive.
if both have the same sign the answer is positive, if they have different signs the answer is negative.
To find the sum of two integers with different signs, you simply combine them, and give the result the sign of the larger integer. For example, you have two integers: -9 and +5. You combine them, that is the +5 cancels out 5 of the -9, leaving -4.
The sign of the product of four integers depends on the signs of the individual integers. There are 4 cases: 1) When all 4 integers share the same sign and all are non-zero (either all are positive or all are negative), the product is positive. 2) When 3 of the 4 integers share the same sign and all are non-zero (3 are positive and 1 is negative; or 3 are negative and 1 is positive), the product is negative. 3) When 2 of the integers are positive non-zero and the other 2 of the integers are negative non-zero, the product is positive. 4) If even one of the integers is zero, the product is zero (no sign - it is neither positive nor negative).
No.For the sum of integers:-- two positives make a positive-- two negatives make a negative-- the sum of mixed signs is the sign of the one with the greater absolute valueFor the product of integers:-- like signs make a positive-- unlike signs make a negative
Depends on how large each integer is. +1-2 or +2-1. Different signs depending on the size of the integers.
If the integers have the same sign, add the numbers (ignoring the signs*) together and then keep the sign. Examples: 4 + 5 = 9 -3 + -8 = -(3 + 8) = -11 If the integers have different signs, ignoring the signs* subtract the smaller from the larger and keep the sign of the larger. Examples: -3 + 10 → 10 - 3 = 7 5 + -11 → -(11 - 5) = -6 *Ignoring he signs of the numbers is taking the absolute value of the numbers.
Yes. The sign of the sum is the same as the sign of the larger interger integer.
If the two signs are the same it is positive but if they are both different itis negative
It is the product of their absolute values with the common sign.
Their quotient is positive if the integers have the same sign;negative if the integers have different signs;zero if the dividend is zero (and the divisor is not).
-- Ignore the signs for a moment. -- Find the difference of the two integers. -- Give it the sign of whichever integer is the bigger number.
You find their difference. The answer has the sign of the number with the larger absolute value.