Missing Power Solving the PDE (Solution included)

In summary, the conversation is about solving a Cauchy PDE with the given initial condition. The problem involves finding the missing power on the (3/2)sT term in the u(s,t) equation.
  • #1
zr95
25
1

Homework Statement


upload_2016-5-1_18-56-40.png


Homework Equations

The Attempt at a Solution


integral[du]= Integral[xt ds]
xt=18s2+3sT
so,
u=Integral[18s2+3sT]
u=6s3+(3/2)s2T+C
C=eT2

This is what I did and the solution is below. I'm unsure where the missing power on the (3/2)sT went in the u(s,t) equation.[/B]
upload_2016-5-1_19-4-41.png
 
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  • #2
zr95 said:

Homework Statement


View attachment 100094

Homework Equations



The Attempt at a Solution


integral[du]= Integral[xt ds]
xt=18s2+3sT
so,
u=Integral[18s2+3sT]
u=6s3+(3/2)s2T+C
C=eT2

This is what I did and the solution is below. I'm unsure where the missing power on the (3/2)sT went in the u(s,t) equation.
View attachment 100096
Let's make the initial image somewhat readable:
upload_2016-5-2_9-28-36.png


You reaaly need to give a complete statement of your problem in the body of your initial post. Here, are we to assume that you are asked to solve that PDE with the stated initial condition?
 
  • #3
The goal is to solve the cauchy pde.
 

Related to Missing Power Solving the PDE (Solution included)

1. What is a PDE?

A PDE, or partial differential equation, is a mathematical equation that involves partial derivatives of an unknown function of several variables. It is commonly used to describe physical phenomena in fields such as physics, engineering, and economics.

2. What is "Missing Power Solving the PDE"?

"Missing Power Solving the PDE" is a problem-solving method used to solve PDEs. It involves identifying the missing power in the equation and using it to find a solution.

3. How does "Missing Power Solving the PDE" work?

The first step in "Missing Power Solving the PDE" is to identify the missing power in the PDE. This is the power that is not explicitly stated in the equation. Then, the missing power is used to find a solution by manipulating the equation in a specific way.

4. What are the benefits of using "Missing Power Solving the PDE"?

"Missing Power Solving the PDE" can simplify the process of solving PDEs and make it more efficient. It can also help in understanding the underlying concepts and properties of PDEs.

5. Are there any limitations to "Missing Power Solving the PDE"?

While "Missing Power Solving the PDE" can be a useful method, it may not work for all types of PDEs. Some PDEs may require different approaches or techniques to solve them.

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