Interactive Real Analysis - part of MathCS.org

• Real Analysis
• 1. Sets and Relations
• 2. Infinity and Induction
• 3. Sequences of Numbers
• 4. Series of Numbers
• 5. Topology
• 6. Limits, Continuity, and Differentiation
• 6.1. Limits
• 6.2. Continuous Functions
• 6.3. Discontinuous Functions
• 6.4. Topology and Continuity
• 6.5. Differentiable Functions
• 6.6. A Function Primer
• 7. The Integral
• 8. Sequences of Functions
• 9. Historical Tidbits
• Java Tools

Examples 6.5.6(b):

Why these ads ...

The function f(x) = x sin(1/x) is continuous everywhere except at x = 0, where it has a removable discontinuity. If the function is extended appropriately to be continuous at x = 0, is it then differentiable at x = 0 ?

Back

(f(x) - f(0) ) / x = x sin( 1 / x) / x = sin( 1 / x )

But we have seen before that this function does not have a limit as x approaches 0. Can you recall the argument for this statement ?

Therefore, the function is not differentiable at 0. As a product and composition of functions that are differentiable for all x but zero, this function is differentiable everywhere except at x = 0.