Solving Laplace and Heat Equation in 3D Rectangular Solid

danai_pa · Sep 8, 2005

Heat equation

Given the 3-D rectangular solid with sides of length a, b and c in the x, y and z directions, respectively. Find the function T(x,y,z,t) when
Laplace(T)=1/K(dT/dt) subject to the following conditions:

1) Initial conditions: T(x,y,z,0)=0
2) Boundary conditions
a. dT/dx + h(1)T = 0 for x=0
b. T = 0 for x=a
c. dT/dy = 0 for y=0
d. dT/dy = 0 for y=b
e. dT/dz = 0 for z=0
f. dT/dz + h(2)T = 0 for z=c

Anyone plese suggest me, I don't understand. Thank you.

HallsofIvy · Sep 8, 2005

?? What have you tried? I don't see any reason why T(x,y,z,t) identically equal to 0 isn't the solution. It satisfies all the conditions, doesn't it?

sic · Sep 8, 2005

HallsofIvy: it is, but it's the trivial one.. it's a linear equation, the solution can be multiplied by a constant, and knowing that 0 is a good solution doesn't give you anything..
danai_pa:
try the following steps:
1) solve the boundary. you'll see that on the three of the faces of the cube , T is zero and on all the rest, its derivative is zero
2) write T as
sum C(n,m,l) sin(pi n x/a) cos(pi m y/b) cos(pi (l+1/2) z/c)
it is a general way to write the function taking care of the constraints automatically
3) now, just calculate the time dependence of C(n,m,l) by applying laplacian to the general notation (pay attention that the functions of the series are orthogonal)

danai_pa · Sep 8, 2005

please help

I can solve this equation for y only and x , z. I can't find it. Please describe to me. Thank you.

danai_pa · Sep 9, 2005

please help

Anyone please help me. I can not solve it.
Thank you

HallsofIvy · Sep 9, 2005

Clearly the "existance and uniqueness" theorem applies to this. T(x,y,z,t) identically equal to 0 may be trivial but it's the only one you're going to get!

sic · Sep 9, 2005

Actually i didn't pay attention to the condition T(x,y,z,0)=0, which really makes the problem trivial (T=0 always), but if it's so, the boundary conditions have absolutely no meaning.. are you sure there's no typo?

Astronuc · Sep 9, 2005

Hint: Heat conduction equation in 1 D.

http://mathworld.wolfram.com/HeatConductionEquation.html

in 2D - but using polar coordinates

http://mathworld.wolfram.com/HeatConductionEquationDisk.html

General in 3D

http://scienceworld.wolfram.com/physics/HeatConductionEquation3-Dimensional.html

try T(x,y,z,t) = X(x)Y(y)Z(z)T(t)

danai_pa · Sep 11, 2005

I can solve variable of x and y but variable z i can not solve it.
Anyone please suggest me. Thank you

HallsofIvy · Sep 11, 2005

Read back through this. You have already been told the solution several times!

It really doesn't matter whether the variables are x, y, z, or anything else.

Solving Laplace and Heat Equation in 3D Rectangular Solid

1. What is the Laplace equation and how is it solved in a 3D rectangular solid?

2. What is the Heat equation and how is it solved in a 3D rectangular solid?

3. What are some real-world applications of solving Laplace and Heat equations in 3D rectangular solids?

4. Can the Laplace and Heat equations be solved simultaneously in a 3D rectangular solid?

5. Are there any limitations to solving Laplace and Heat equations in 3D rectangular solids?

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