The question neglects to specify the operation to be performed with the numbers.
It does make a difference.
If they are added, multiplied, or divided ... true.
If they are subtracted ... possibly true in one direction, if the numbers are unequal; possibly false in the other, if the numbers are unequal and the result is negative.
By subtracting a positive number from itself. 3 - 3 = 0
That is false. A negative times a negative is always a positive. Since absolute numbers are always positive if you make it negative that is not correct.
No. You have it backwards . . . . . the absolute value of a negative number is always a positive number.
That statement is false. For example, (-2) - (-3) = 1 which is a positive number created from two negative numbers when subtracted.
That would be false. When you subtract two positive numbers, you only go into negatives if the number you are subtracting is greater than the number it's being subtracted from. 3 - 2 = 1 2 - 3 = -1
Is false. If ' n ' is negative, then ' -n ' is positive.
False. The natural numbers are the counting numbers: 1, 2, 3, ... which are the positive integers; -7 is a negative integer and so not one of them.
False. It is true for every positive number greater than 1, this includes non-integers, and any number less than zero. Numbers between 0 and 1 have squares smaller than their principal square root.
false. it is always even
The absolute value will always be positive because if you think about it, the absolute value.
false sometimes it contains 2 primes it always comes out to a prime number
Not exactly. The numbers (a & b) can be any real number (positive or negative). It is the letter i, which represents the imaginary unit sqrt(-1).False
It is false.
False. Either the product or the quotient of two negative numbers is positive.False. Either the product or the quotient of two negative numbers is positive.False. Either the product or the quotient of two negative numbers is positive.False. Either the product or the quotient of two negative numbers is positive.
It is false.
FPPW=Number of the false alarms/ The number of testing negative examples
False because 2 is an even number which is also a prime number.