5 Must Know Facts For Your Next Test

1. The path limit shows that different paths towards the same point can yield different limit values, indicating discontinuity.
2. To evaluate path limits, one can substitute specific paths into the function, such as linear or parabolic paths.
3. If a function has the same limit along all possible paths, it suggests that the overall limit exists at that point.
4. Path limits are essential for testing the continuity of multivariable functions at specific points.
5. Identifying path limits helps determine if a limit does not exist, which is crucial for understanding function behavior near points of interest.

Review Questions

• How can evaluating path limits help determine the existence of a limit for a multivariable function?
  • Evaluating path limits allows you to see if a multivariable function approaches the same value from different directions. If you find that the limit varies depending on the path taken, it indicates that the overall limit at that point does not exist. Conversely, if all paths yield the same result, it suggests that the limit exists. This method is particularly useful for functions with complicated behaviors near specific points.
• Discuss how a function might exhibit different limits when approached from various paths and its implications for continuity.
  • When a function shows different limits based on the path taken towards a point, it implies that the function may not be continuous at that point. This situation can arise in cases where the function has removable or jump discontinuities. Understanding these variations is vital because they signal where functions fail to behave predictably, prompting further investigation into their continuity and overall behavior in multiple dimensions.
• Evaluate a specific example of a function with differing path limits and analyze what this reveals about its overall limit and continuity.
  • Consider the function $$f(x,y) = \frac{xy}{x^2 + y^2}$$ as (x,y) approaches (0,0). Approaching along the line y = x yields a limit of $$\frac{1}{2}$$, while approaching along y = 0 gives a limit of 0. This discrepancy indicates that the overall limit at (0,0) does not exist since it depends on the chosen path. Consequently, this analysis reveals that the function is discontinuous at this point, which is critical for understanding its behavior in calculus.

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