There are infinitely many ordered pairs: each point on the straight line defined by the equation is an ordered pair that is a solution. One example is (0.5, 2.5)
(1, 0.2), (2, 0.1)
it is 7yx978
there is an infinte amount of ordered pairs in this equation a few examples could be... (1,-3) (2,-13) (3,-23) (234652,-2346513) (-25,257)
There are an infinite number of ordered pairs. Any point on the straight line which passes through (0,4) and has a gradient of -2 will be an ordered pair for the equation.
help
There are infinitely many ordered pairs: each point on the straight line defined by the equation is an ordered pair that is a solution. One example is (0.5, 2.5)
7
(1, 0.2), (2, 0.1)
it is 7yx978
there is an infinte amount of ordered pairs in this equation a few examples could be... (1,-3) (2,-13) (3,-23) (234652,-2346513) (-25,257)
There are an infinite number of ordered pairs. Any point on the straight line which passes through (0,4) and has a gradient of -2 will be an ordered pair for the equation.
(-1, -5), (0, -2), (1, 1), (2, 4), (356, 1066)
There are many different ordered pairs for this. To figure it out, make up a value for x. Then plug it into the equation and solve to find y. You can use any number. For example, if x=2, then your equation would be 3(2)+1. Solve that and you get 7 for the answer (y). if x=2, then y=7 so one of the ordered pairs would be (2,7).
The equation y = 7x represents a linear relationship where the value of y is always 7 times the value of x. Therefore, all ordered pairs for this equation will have y as a multiple of 7x. For example, when x = 1, y = 7; when x = 2, y = 14; and so on. The ordered pairs for y = 7x will be in the form (x, 7x).
Ordered pairs are not specified. if it is like (0,5),(0,1),(0,0),.... then we may find the answer, which then shows the family of different lines according to ordered pairs.
There are infinitely many possible equations. The simplest is y = (x2 + 11x - 2)/2