When two opposites are combined, their sum is zero. This is because one value cancels out the other; for example, when adding +5 and -5, the result is 0. This principle holds true for any pair of opposites, regardless of their magnitude.
Zero
Because by definition, there sum will always be zero. Because the definition of opposites are additive inverses.
It is zero and that is simply because that is how additive opposites are defined.
"Opposites" cannot mean additive opposites since, by definition, their sum must be 0. So "opposites" is likely to mean multiplicative opposites. This gives the equation x + 1/x = 100 Then the two numbers are 0.010010 and 99.989999 to 6 dp.
For normal dice, and assuming "combined" refers to the sum, the answer is 7.
Zero
Because by definition, there sum will always be zero. Because the definition of opposites are additive inverses.
It is zero and that is simply because that is how additive opposites are defined.
If the negative has a greater absolute value, the sum will be negative. If the positive has a greater absolute value, the sum will be positive.
the sum of the two
"Opposites" cannot mean additive opposites since, by definition, their sum must be 0. So "opposites" is likely to mean multiplicative opposites. This gives the equation x + 1/x = 100 Then the two numbers are 0.010010 and 99.989999 to 6 dp.
For normal dice, and assuming "combined" refers to the sum, the answer is 7.
The term SUM means add and DIFFERRENCE means subtract. They are opposites.
A resultant Vector.
0
Yes, the vector sum is called the resultant. The resultant is the single vector that represents the combined effect of two or more vectors. It is equal to the vector sum of the individual vectors.
They are all binary operators: two input values are combined to give an output.