4. Sketch the graph of an example function f on domain [0, 10] with jump discontinuities at x = 3 (righ continuous), x = 5 (left continuous), and x = 7 (neither left nor right continuous), where ƒ (3) = 3, ƒ (5) = 5, ƒ (7) = 7.

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### Example Function with Jump Discontinuities **Problem Statement:** Sketch the graph of an example function \( f \) on the domain \([0, 10]\) with jump discontinuities at: - \( x = 3 \) (right continuous) - \( x = 5 \) (left continuous) - \( x = 7 \) (neither left nor right continuous) Where: - \( f(3) = 3 \) - \( f(5) = 5 \) - \( f(7) = 7 \) **Instructions:** 1. **Right Continuous at \( x = 3 \):** - The function \( f \) approaches the value \( f(3) = 3 \) from the right. 2. **Left Continuous at \( x = 5 \):** - The function \( f \) approaches the value \( f(5) = 5 \) from the left. 3. **Neither Left nor Right Continuous at \( x = 7 \):** - The function \( f \) does not approach the value \( f(7) = 7 \) from either direction. **Graphical Representation:** - **At \( x = 3 \)**, you would draw the function so that it reaches the value 3 when approached from the right side. - **At \( x = 5 \)**, you would draw the function so that it reaches the value 5 when approached from the left side. - **At \( x = 7 \)**, you would draw the function to show a jump discontinuity, indicating that neither side approaches the value 7. **Visual Explanation:** Imagine the x-axis ranging from 0 to 10. At points \( x = 3, 5, \) and \( 7 \), there are jumps: - For \( x = 3 \), the graph would immediately reach 3 when moving from a higher \( x \) value to 3. - For \( x = 5 \), the graph would immediately reach 5 when moving from a lower \( x \) value to 5. - For \( x = 7 \), you would see a clear jump that does not align smoothly from either side, reflecting the non-continuity. By following these instructions and visual guidelines, you will be able to sketch the graph of the described function accurately.