A slope field (also called a direction field) is a graphical representation of the solutions to a first-order differential equation of a scalar function. Solutions to a slope field are functions drawn as solid curves. A slope field shows the slope of a differential equation at certain vertical and horizontal intervals on the x-y plane, and can be used to determine the approximate tangent slope at a point on a curve, where the curve is some solution to the differential equation. The slope field can be defined for the following type of differential equations which can be interpreted geometrically as giving the slope of the tangent to the graph of the differential equation's solution (integral curve) at each point (x, y) as a function of the point coordinates. It can be viewed as a creative way to plot a real-valued function of two real variables as a planar picture. Specifically, for a given pair , a vector with the components is drawn at the point on the -plane. Sometimes, the vector is normalized to make the plot better looking for a human eye. A set of pairs making a rectangular grid is typically used for the drawing. An isocline (a series of lines with the same slope) is often used to supplement the slope field. In an equation of the form , the isocline is a line in the -plane obtained by setting equal to a constant. Given a system of differential equations, the slope field is an array of slope marks in the phase space (in any number of dimensions depending on the number of relevant variables; for example, two in the case of a first-order linear ODE, as seen to the right). Each slope mark is centered at a point and is parallel to the vector The number, position, and length of the slope marks can be arbitrary. The positions are usually chosen such that the points make a uniform grid. The standard case, described above, represents . The general case of the slope field for systems of differential equations is not easy to visualize for .