{2,-4,6,-5,-3}
The domain is {-1, 0, 2, 4}.
The domain is the set {-3, -2, 0, 3}. Note that because -2 is mapped to -5 as well as 6, this relationship is not a function.
The domain is {-1, 0, 1, 3}.
{-3,2,0}
There are 24 possible functions: One of these is f(0) = 2 f(0.5) = 4.5 f(2) = 0.5 f(3) = 0 The four numbers in the range can be placed opposite the domain in any order.
The domain is anything you want it to be. You could define the domain to be integer values only, or it could be {-3, -2.5, .2, 0, sqrt(7), 9}.
The domain consists of the set {3, 4, 5, 8}
(2,-3),(-4,2),(6,2),(-5,-3),(-3,0)
Find the domain of the relation then draw the graph.
No it is not because contains one-to-many mappings.
Domain = [0, pi/3) radians or [0, 60) degrees.Range = [-9, 9]
The number of solutions for an equation can be determined by analyzing the degree of the equation and its graphical representation. For a linear equation, there is either one solution (if the lines intersect) or no solution (if the lines are parallel). Quadratic equations can have two solutions, one solution, or no real solution, depending on the discriminant. Higher degree equations can have multiple solutions or no solutions depending on the nature of the equation.