A linear equation!
The general form, in n-dimensional space, is
a1x1 + a2x2 + ...+ anxn = c
where the ai and c are constants and the xi are variables.
Wiki User
β 10y agoIt is a straight line.
A straight line on the Cartesian plane is the graph of a linear equation.
No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.
If the function is a straight line equation that passes through the graph once, then that's a function, anything on a graph is a relation!
By using the formula for a straight line equation graphed on the Cartesian plane by means of the x and y axes.
If it is a straight line, then the equation is linear.
yes
It is a straight line.
Linear equation.
A straight line.
The word straight doesn't really apply to an equation. However the graph of a linear equation is a straight line.
This is a straight line graph with the equation, y = n where n is any positive or negative number.
straight line
y=x2
A straight line on the Cartesian plane is the graph of a linear equation.
A function is an equation that is a straight line when plotted on a graph.
The equation has no slope. The graph of the equation is a straight line with a slope of -1 .