Yes the graph of a function can be a vertical or a horizontal line
The line x = 4 is a verticle line because, in a standard x-y graph, where x increases to the right and y increases upwards, the graph x = 4 is all points y, where x is 4. That is a verticle line, with infinite slope.
So this would be a verticle line which passes through the point at -3.
Cannot exist. And a vertical graph is simply a vertical graph!
In the special case of two related variables (e.g., 2x - 7y + 5 = 0), the graph is a straight line.
a line graph is over time. a bar graph is not
The line x = 4 is a verticle line because, in a standard x-y graph, where x increases to the right and y increases upwards, the graph x = 4 is all points y, where x is 4. That is a verticle line, with infinite slope.
A sliding test. The vertical line can meet the graph at at most one point.
So this would be a verticle line which passes through the point at -3.
Cannot exist. And a vertical graph is simply a vertical graph!
A verticle line is impossible. You cannot have different positions at one moment in time.
A line which is the reflection of the original in y = x.
Move 3 over the right side of the equation so the equation would be x = -3. The graph of this would be a verticle line at x= -3
zero
It is provided to avoid the verticle joints.
A linear equation, when plotted, must be a straight line. Such a restriction does not apply to a line graph.y = ax2 + bx +c, where a is non-zero gives a line graph in the shape of a parabola. It is a quadratic graph, not linear. Similarly, there are line graphs for other polynomials, power or exponential functions, logarithmic or trigonometric functions, or any combination of them.
a line that is neither verticle or horizontal
First you draw a short verticle line and a semi-circle another short verticle line then a sharp coner then a horizontal line that is once again short. On the opposite side draw a verticle line. Thene on the top of the picture draw some hair, and some facial features.