No. 3 + 4 is not = 5
There is no prime number that exists to satisfy this Condition.
There are an infinite number of ordered pairs that satisfy the equation.
No, there is no single number that equals both 21 and 34, as they are distinct values. A number can only be equal to one specific value at a time. Therefore, no number can satisfy the condition of being equal to both 21 and 34 simultaneously.
To find a number that, when added to another number, equals 567, you can represent the unknown number as ( x ). The equation would be ( x + y = 567 ), where ( y ) is the other number. For any specific value of ( y ), you can find ( x ) by rearranging the equation to ( x = 567 - y ). This means that many pairs of numbers can satisfy this equation.
Wonderful. Thanks for sharing. If we had another equation in addition to that one, then we could find unique values for 'x' and 'y' that satisfy both. With only this equation, there are an infinite number of pairs of values that satisfy it, just as long as y = 0.75x + 2.75 .
is an equation of a line in plane coordinate geometry. The coordinates of every point on that line satisfy the equation so there are an infinite number of solutions to the equation.
-4x + 9y = 0 is the equation of a line in the Cartesian plane and the coordinates of any of the infinite number of points on that line will satisfy the equation.
To find a number that, when added to a negative number, equals 24, you can express it as ( x + (-y) = 24 ), where ( x ) is the number and ( y ) is the positive value of the negative number. Rearranging this gives ( x = 24 + y ). Thus, any number that is 24 plus a positive number will satisfy the equation. For example, if ( y = 5 ), then ( x = 24 + 5 = 29 ), and ( 29 + (-5) = 24 ).
The number used to multiply the lengths of a figure to create a larger or smaller similar image is called the scale factor. It is a ratio that represents the proportional relationship between the corresponding sides of two similar figures.
3
It is a horizontal line in the Cartesian plane, or a vertical line in the complex plane. The reason is that these points satisfy the equation while no others do.
One possible combination of three numbers that equals 60, without using the number 20, is 15, 15, and 30. Another option is 10, 25, and 25. There are many combinations, but these are a couple of examples that satisfy the condition.