Additive agents are substances added to products to enhance their properties or performance. Common examples include preservatives in food to extend shelf life, stabilizers in cosmetics to maintain texture, and plasticizers in plastics to increase flexibility. Other examples include flavor enhancers like monosodium glutamate (MSG) and colorants used in various consumer goods. These agents play a crucial role in improving the functionality and appeal of products across different industries.
-2 is the additive inverse of +2
The additive inverse of an integer ( x ) is the integer that, when added to ( x ), results in zero. This integer is (-x). For example, the additive inverse of 5 is -5, and the additive inverse of -3 is 3.
Every integer has its own additive inverse, which is simply the integer multiplied by -1. For example, the additive inverse of 5 is -5, and the additive inverse of -3 is 3. Therefore, all integers, including zero, have their own additive inverses. In summary, any integer ( x ) has an additive inverse of ( -x ).
The additive inverse property states that for any number ( a ), there exists an additive inverse ( -a ) such that ( a + (-a) = 0 ). An example of an equation that illustrates this property is ( 5 + (-5) = 0 ). This shows that adding a number and its additive inverse results in zero.
The question is confusing. The additive inverse of a real number is the same number with the sign changed. For example, the additive inverse of -5 is +5 (or simply 5); the additive inverse of 7 (which is the same as +7) is -7.
The additive identity property states that any number plus zero is that number. For example: 5 + 0 = 5.
-2 is the additive inverse of +2
The additive inverse for a number is its negative value. The sum of an integer and its additive inverse is zero. For the example (5), the additive inverse would be (-5).
The additive inverse of a number is that which when added to the number gives 0. If n is a number then the additive inverse of it (-n) is that number such that: n + -n = 0 For example, the additive inverse of '4' is '-4'.
The additive inverse of an integer ( x ) is the integer that, when added to ( x ), results in zero. This integer is (-x). For example, the additive inverse of 5 is -5, and the additive inverse of -3 is 3.
Zero. For example, the additive inverse of 5 is -5, and 5 + (-5) = 0.
Every integer has its own additive inverse, which is simply the integer multiplied by -1. For example, the additive inverse of 5 is -5, and the additive inverse of -3 is 3. Therefore, all integers, including zero, have their own additive inverses. In summary, any integer ( x ) has an additive inverse of ( -x ).
The additive inverse property states that for any number ( a ), there exists an additive inverse ( -a ) such that ( a + (-a) = 0 ). An example of an equation that illustrates this property is ( 5 + (-5) = 0 ). This shows that adding a number and its additive inverse results in zero.
The question is confusing. The additive inverse of a real number is the same number with the sign changed. For example, the additive inverse of -5 is +5 (or simply 5); the additive inverse of 7 (which is the same as +7) is -7.
I assume you mean the additive inverse. The sum of any number and its additive inverse is zero. For example, 7 + (-7) = 0.
An additive inverse is a mathematical concept referring to a number that, when added to a given number, results in zero. For any real number ( x ), its additive inverse is ( -x ). For example, the additive inverse of 5 is -5, because ( 5 + (-5) = 0 ). This property is fundamental in algebra and is used in solving equations.
Two integers are referred to as additive inverses when their sum equals zero. For example, if ( a ) is an integer, then its additive inverse is ( -a ), since ( a + (-a) = 0 ). This concept highlights the relationship between numbers that cancel each other out in addition.