Differential Equations are, well, equations that involve differentials (or derivatives). Here is an example of one: y" - 5y6y=0 Generally, these equations represent a relationship that some unknown function y has with its derivatives, and we typically are interested in solving for what y is. We will not be doing that here, as that's well beyond this course. Instead, we are going to verify that y = Ce + De, where C, D are real numbers is a solution to the differential equation above. Here's how to proceed: a. Let y = Ce + Dex. Find y' and y", remembering that C, D are unknown constants, not variables. b. Show that y, y', and y" satisfy the equation at the top (use substitution). Explain your process for the above steps. Then, I want you to analyze your work for part b. What you should pay close attention to is how the constants C, D impacted (or didn't) your work. Determine whether there are any values of C, D that would make y = Ce + De not a solution to the differential equation. Explain your thought process.

Introduction to a Differential Equation

Differential Equations are, well, equations that involve differentials (or derivatives). Here is an example of one:

�″−5�′−6�=0

Generally, these equations represent a relationship that some unknown function � has with its derivatives, and we typically are interested in solving for what � is. We will not be doing that here, as that's well beyond this course. Instead, we are going to verify that 

�=��−�+��6�, where �,� are real numbers

is a solution to the differential equation above. Here's how to proceed:

a. Let �=��−�+��6�. Find �′ and �″, remembering that �,� are unknown constants, not variables.

b. Show that �, �′, and �″ satisfy the equation at the top (use substitution).

Explain your process for the above steps. Then, I want you to analyze your work for part b. What you should pay close attention to is how the constants �,� impacted (or didn't) your work. Determine whether there are any values of �,� that would make �=��−�+��6� not a solution to the differential equation. Explain your thought process.

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Differential Equations are, well, equations that involve differentials (or derivatives). Here is an example of one: y" — 5y' — 6y = 0 Generally, these equations represent a relationship that some unknown function y has with its derivatives, and we typically are interested in solving for what y is. We will not be doing that here, as that's well beyond this course. Instead, we are going to verify that y = Ce=x + Dex, where C, D are real numbers is a solution to the differential equation above. Here's how to proceed: a. Let y = Ce¯ + Dex. Find y' and y", remembering that C, D are unknown constants, not variables. b. Show that y, y', and y" satisfy the equation at the top (use substitution). Explain your process for the above steps. Then, I want you to analyze your work for part b. What you should impacted (or didn't) your work. Determine whether there are any values of C, D that would make y equation. Explain your thought process. = pay close attention to is how the constants C, D Ce + De not a solution to the differential 6x