A parabola solution on a graph appears as a symmetrical U-shaped curve. It can open either upward or downward, depending on the coefficient of the squared term in its equation (e.g., (y = ax^2 + bx + c)). The highest or lowest point of the parabola is called the vertex, and the axis of symmetry runs vertically through this point. The shape is defined by how wide or narrow it is, which is influenced by the value of (a).
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.
What does a Step Graph look like?