It is zero, by definition of additive inverse!
0. By the definition of "additive inverse", the sum of ANY number and its additive inverse must be 0.
Because by definition, there sum will always be zero. Because the definition of opposites are additive inverses.
The definition of density is: Density = (Mass) divided by (Volume).A simple algebraic operation rearranges this definition to give: Mass = (Density) times (Volume)
Not possible ! A rectangle is a two-dimentional shape. Volume is a measure of capacity.
It is zero, by definition of additive inverse!
0. By the definition of "additive inverse", the sum of ANY number and its additive inverse must be 0.
Number + additive inverse of number = 0, by definition (the additive inverse of a number is that number, which when added to the original number, results in a sum of 0) Number + additive inverse of number = 0, by definition (the additive inverse of a number is that number, which when added to the original number, results in a sum of 0)
Yes, volumes are additive. When you add the volumes of two different objects or substances together, you get the total volume of both combined. This principle is based on the fact that volume is a physical quantity that can be summed up.
A pair of numbers whose sum is zero. The additive inverse of 10 is -10 because 10+(-10) = 0.
The additive inverse of a number is the value that, when added to the original number, results in zero. In this case, the additive inverse of -2x would be 2x, since (-2x) + 2x = 0. This concept is based on the properties of addition and the definition of additive inverses in mathematics.
Because by definition, there sum will always be zero. Because the definition of opposites are additive inverses.
Definition for additive inverse:Web definitions:(mathematics) one of a pair of numbers whose sum is zero; the additive inverse of -5 is +5. -56 + 56 = 0SO the additive inverse of 56 is -56 or negative 56
Any number plus zero is equal to the original amount.
When it says that volumes are additive, it means that the total volume of a system is equal to the sum of the volumes of its individual components. This concept is commonly applied in physics, chemistry, and engineering when dealing with mixtures or composite materials. By understanding that volumes are additive, one can accurately calculate the overall volume of a system based on the volumes of its parts.
The common definition of volume refers to the amount of space an object occupies, while the scientific definition of volume is the measure of the amount of space occupied by matter in three dimensions (length, width, and height). Scientifically, volume is typically measured in cubic units such as cubic meters or cubic centimeters.
Simple. The answer is zero. A 2-d shape has, by definition, no volume. Volume is a characteristic of 3-d shapes.