The green graph below shows the graph of the solution to y" +by' + cy=0 y(0) = 0, y'(0) = 1 for some particular values of b, c that have b² - 4ac > 0. Adjusting the sliders for b and c will show you different solutions to this equation in red. Use them to align the red and green graphs so that the red graph overlays the green one. Note that a red graph may not appears for some combinations of b and c. The point of this exercise is not to solve rigorously, but to understand how changing the values of b and c affects the behavior of the system b=7 c = 5.5 - 0 + ↓ ↑ →

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Adjusting the sliders for bb and cc will show you different solutions to this equation in red. Use them to align the red and green graphs so that the red graph overlays the green one. Note that a red graph may not appears for some combinations of bb and cc. The point of this exercise is not to solve rigorously, but to understand how changing the values of bb and cc affects the behavior of the system –o+←↓↑→ bb cc b=7b=7 c=5.5c=5.5
### Understanding the Behavior of Differential Equations

The green graph below shows the graph of the solution to:

\[ \frac{1}{2} y'' + b y' + c y = 0 \]
\[ y(0) = 0, \; y'(0) = 1 \]

for some particular values of \( b \) and \( c \) that have \( b^2 - 4ac > 0 \).

Adjusting the sliders for \( b \) and \( c \) will show you different solutions to this equation in red. Use them to align the red and green graphs so that the red graph overlays the green one. Note that a red graph may not appear for some combinations of \( b \) and \( c \).

The point of this exercise is not to solve rigorously, but to understand how changing the values of \( b \) and \( c \) affects the behavior of the system.

#### Interactive Elements:

- **Sliders**:
  - The top slider adjusts the value of \( b \), set to \( b = 7 \).
  - The bottom slider adjusts the value of \( c \), set to \( c = 5.5 \).
  
#### Graph Explanation:

The graph provides a visual representation of the differential equation's solutions:
- **Green Graph**: Represents the solution for the given values.
- **Red Graph**: Represents the solution for user-adjusted values of \( b \) and \( c \).

Again, the goal is to manipulate the sliders for \( b \) and \( c \) to observe the effects on the system's behavior and to match the red graph as closely as possible to the green one.

Use this exercise to deepen your understanding of how different parameters in a differential equation influence its solution. Observe changes such as oscillations, damping effects, or other behaviors as you vary \( b \) and \( c \).
Transcribed Image Text:### Understanding the Behavior of Differential Equations The green graph below shows the graph of the solution to: \[ \frac{1}{2} y'' + b y' + c y = 0 \] \[ y(0) = 0, \; y'(0) = 1 \] for some particular values of \( b \) and \( c \) that have \( b^2 - 4ac > 0 \). Adjusting the sliders for \( b \) and \( c \) will show you different solutions to this equation in red. Use them to align the red and green graphs so that the red graph overlays the green one. Note that a red graph may not appear for some combinations of \( b \) and \( c \). The point of this exercise is not to solve rigorously, but to understand how changing the values of \( b \) and \( c \) affects the behavior of the system. #### Interactive Elements: - **Sliders**: - The top slider adjusts the value of \( b \), set to \( b = 7 \). - The bottom slider adjusts the value of \( c \), set to \( c = 5.5 \). #### Graph Explanation: The graph provides a visual representation of the differential equation's solutions: - **Green Graph**: Represents the solution for the given values. - **Red Graph**: Represents the solution for user-adjusted values of \( b \) and \( c \). Again, the goal is to manipulate the sliders for \( b \) and \( c \) to observe the effects on the system's behavior and to match the red graph as closely as possible to the green one. Use this exercise to deepen your understanding of how different parameters in a differential equation influence its solution. Observe changes such as oscillations, damping effects, or other behaviors as you vary \( b \) and \( c \).
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