It is 4.
An ordinate is the "y" co-ordinate of an ordered pair. e.g. in (3,4), 4 is the ordinate. If you are interested the "x" part is called the abscissa.
5x=4y=-20 x=-4 y=-5 (-4,-5) is the ordered pair
(4,-4)
The ordered pair is (1, 3).
y=3x
9
An ordinate is the "y" co-ordinate of an ordered pair. e.g. in (3,4), 4 is the ordinate. If you are interested the "x" part is called the abscissa.
9
There is no ordered pair for y =4. y=4 is a line, not a point.
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.
5x=4y=-20 x=-4 y=-5 (-4,-5) is the ordered pair
(4,-4)
To determine an ordered pair that could be a solution to an inequality, you need to substitute the values of the ordered pair into the inequality and check if it satisfies the condition. For example, if the inequality is (y < 2x + 3) and the ordered pair is (1, 4), you would substitute (x = 1) and (y = 4) to see if (4 < 2(1) + 3) holds true. If it does, then (1, 4) is a solution; if not, you would need to try another pair.
The ordered pair is (1, 3).
An ordered pair is a list of two numbers, in which the order matters. For example, (5, 2) is an ordered pair; this pair is not the same as (2, 5). For comparison, for the numbers in a set the order does not matter.
To determine the ordered pair in the solution set of the equation (3x - y = 10), you can rearrange it to (y = 3x - 10). Any ordered pair ((x, y)) that satisfies this equation will be part of the solution set. For example, if you choose (x = 4), then (y = 3(4) - 10 = 2), so the ordered pair ((4, 2)) is in the solution set.
x = 6 So y = 9*6 + 4 = 54 + 4 = 58 The ordered pair is (6, 58)