Like a parabola. Not "like": it would be.
any graph that is not represented by a line,ie: parabola, hyperbola, circle, ellipse,etc
On a graph it is where a point on a line/parabola/hyperbola/... Crosses the x-axis. And it can also be in parenthesis when written out. For example: (3,0)
The parabola shape is magnified. If you keep the same scale for the graph, the parabola will look wider, more flattened out.
It is a parabola with its vertex at the origin and the arms going upwards.
Like a parabola. Not "like": it would be.
A U shaped parabola
any graph that is not represented by a line,ie: parabola, hyperbola, circle, ellipse,etc
an upside down parabola
When you look at the parabola if it opens downwards then the parabola has a maximum value (because it is the highest point on the graph) if it opens upward then the parabola has a minimum value (because it's the lowest possible point on the graph)
On a graph it is where a point on a line/parabola/hyperbola/... Crosses the x-axis. And it can also be in parenthesis when written out. For example: (3,0)
The parabola shape is magnified. If you keep the same scale for the graph, the parabola will look wider, more flattened out.
It is a parabola with its vertex at the origin and the arms going upwards.
A quadratic relationship is a mathematical relationship that can be expressed by a quadratic formula in which the highest exponent is two (i.e., x squared). On a graph, this relationship will look like a parabola.
if y = x2 + 10x + 25 then y = (x + 5)2 This tells us that the graph would be a parabola, with it's vertex at (-5, 0), and a range of 0 to infinity.
the pie graph of new york is a very simple solution here is one.
i dont think there is such thing as the equation of a curved line the closest is probably a (hyperbola, ellipse, or parabola) with a restriction making it look like a curved line but it would be very complicated