How do you determine the values of x for which the function f(x) is equal to zero based on its graph?

Determining x where f(x) = 0 from the Graph

When analyzing the graph of a function f(x), finding the points where the function equals zero is equivalent to identifying the x-intercepts of the graph. Here’s a detailed step-by-step approach to help you find those values:

  1. Observe the Graph: Start by thoroughly examining the graph of the function f(x). Look for points where the curve intersects or touches the x-axis. These points represent the values of x where the function equals zero (f(x) = 0).
  2. Identify Intercepts: Specifically, note the x-coordinates of each point where the graph crosses the x-axis. At these points, the output of the function is zero, indicating that f(x) = 0.
  3. Estimate Values: If the graph is complex and you cannot see clear x-intercepts, you may need to estimate. Use a ruler or a graphing tool to help pinpoint where the graph touches or crosses the x-axis.
  4. Consider Multiple Roots: It’s also possible for a function to touch the x-axis but not cross it. This can be indicative of a repeated root. In such cases, the value of x is still a solution, but the graph doesn’t cross the axis at that point.
  5. Check for Extraneous Solutions: After identifying the x-intercepts, verify them by substituting back into the function, if applicable, to ensure that they satisfy f(x) = 0. Some graphical representations can be deceiving due to scaling or other factors.

In summary, to determine the values of x for which f(x) = 0, you simply need to locate the x-intercepts on the graph, observe whether they are single or multiple roots, and verify their accuracy. This approach is fundamental in understanding the behavior of the function around those critical points.

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