Use the graphs of ƒ' and ƒ" to complete the following steps. <IMAGE>
b. Determine the locations of the inflection points of f and the intervals on which f is concave up or concave down.

Inflection points are points on the graph of a function where the concavity changes. This occurs when the second derivative of the function, f'', is equal to zero or undefined. Identifying these points is crucial for understanding the behavior of the function, as they indicate where the graph shifts from being concave up to concave down, or vice versa.

Concavity refers to the direction in which a curve bends. A function is concave up on an interval if its second derivative, f'', is positive, indicating that the slope of the tangent line is increasing. Conversely, a function is concave down if f'' is negative, meaning the slope of the tangent line is decreasing. Understanding concavity helps in analyzing the overall shape of the graph.

The second derivative test is a method used to determine the concavity of a function and locate inflection points. By examining the sign of the second derivative, f'', one can ascertain whether the function is concave up or down. If f'' changes sign at a point, that point is an inflection point, providing valuable information about the function's behavior in that vicinity.