Wiki User
∙ 12y agoIt will give you a perfect square.
Wiki User
∙ 12y agoYou multiply or divide the first quantity by the number and then you do the same for the other quantity.
If the quantities are related linearly, then the operation would mean SCALING Otherwise it is just operations on the two quantities by a constant
Squaring for multiplying, and if you are dividing by the same number, you get 1
every number does that
Multiply the number by 0.17. or Multiply it by 17 and then divide by 100.
Scaling is when you multiply or divide two quantities by the same number.
You multiply or divide the first quantity by the number and then you do the same for the other quantity.
If the quantities are related linearly, then the operation would mean SCALING Otherwise it is just operations on the two quantities by a constant
Yes, it is; except that the chosen number cannot be zero.
Squaring for multiplying, and if you are dividing by the same number, you get 1
If you add, subtract or multiply rational numbers, the result will be a rational number. It will also be so if you divide by a non-zero rational number. But division by zero is not defined.
It is called algebra. When two quantities are related as long as you do the same operation to both (add, subtract, multiply, or divide) you do not change the relation
If you have a number of square feet, divide it by 43,560 or multiply it by 0.00002296 to get the number of acres.If you have a number of acres, multiply it by 43,560 or divide it by 0.00002296 to get the number of square feet.
The inequality sign changes direction. So 2<3 Multiply by -2 and you get -4>-6 (similarly with division).
If you multiply integers the results is an integer. If you divide integers (with one exception) the result is a rational number which, in some cases, may be an integer. However, the exception is that division by 0 is not defined.
The size of the quantities involved doesn't matter. As long as you add or subtract (or divide or multiply) the same number to or from both sides of the equation, then the two sides remain equal.
every number does that