Since the geraph is a picture of the equation, it's almost a father and son relationship. The equation begets the graph. The graph, in turn, admires and looks up to the equation.
A linear graph shows a linear equation in which the value of one variable depends on the value of the other variable.
linear graph between an independent and independent variable
The graph will be a line.
When it is a linear equation.
a graph of the independent variable and dependant that shows a graph with a fixed gradient (I.E a line graph) The equation of the graph will be given by y = mx +c where m is the gradient and c is a constant
A linear graph shows a linear equation in which the value of one variable depends on the value of the other variable.
linear graph between an independent and independent variable
A linear equation has the form of mx + b, while a quadratic equation's form is ax2+bx+c. Also, a linear equation's graph forms a line, while a quadratic equation's graph forms a parabola.
The graph will be a line.
When it is a linear equation.
you put in what x is and solve it for y! thats the answer!
a graph of the independent variable and dependant that shows a graph with a fixed gradient (I.E a line graph) The equation of the graph will be given by y = mx +c where m is the gradient and c is a constant
a graph of the independent variable and dependant that shows a graph with a fixed gradient (I.E a line graph) The equation of the graph will be given by y = mx +c where m is the gradient and c is a constant
A linear relationship will show up on a graph as a straight line.
Linear = Straight line! So, a graph of a linear relationship is a straight line.
An equation is the same as a function. Identifying a functional relationship from a graph is nearly impossible unless it is trivially simple like a linear relationship.
You can graph a linear equation slope intercept by solving the equation and plugging in the numbers : y=mx+b