I am trying to use NDsolve function to solve a PDE set.

I am pretty new to mathematica and here is the code I put in.

```
NDSolve[{D[Cm[t, x], t] == Dm*D[Cm[t, x], x, x] + Kg*Cs[t, x] - Ka*Cm[t, x],
D[Cs[t, x], t] == Ds*D[Cs[t, x], x, x] + Ka*Cm[t, x] - Kg*Cs[t, x],
Cm[0, x] == Cm0,
Cs[0, x] == Cs0,
Dm*ND[Cm[t, 0]] == 0.5*FT,
Ds*ND[Cs[t, 0]] == 0.5*FT,
Cm[t, Infinity] == Cm0,
Cs[t, Infinity] == Cs0}
{Cm[t, x], Cs[t, x]}, {t, 0, 1000}, {x, 0, Infinity}];
plot3D[Cs, {t, 0, 1000}, {x, 0, 10000}]
Dm = 9 e - 8;
Ds = 5 e - 9;
Cm0 = 1.276 e + 15;
Cs0 = 1.276 e + 20;
Ka = 1;
Kg = 1 e - 5;
FT = 1 e + 11;
```

So, basically, we have two PDEs, 2 initial conditions and 4 boundary conditions(two constant B.C. two flux B.C.). We know all the values of parameters. I am not sure if its a formatting problem or boundary choosing problem. The system gives

"Thread::tdlen: Objects of unequal length in " "NDSolve::argmu: NDSolve called with 1 argument; 3 or more arguments are expected."

Could somebody give some valuable suggestions?

Thanks

## Update

```
Dm = 9*10^-8;
Ds = 5*10^-9;
Cm0 = 1.276*10^+15;
Cs0 = 1.276*10^+20;
Ka = 1;
Kg = 1*10^-5;
FT = 1*10^+11;
NDSolve[{D[Cm[t, x], t] ==
Dm*D[Cm[t, x], x, x] + Kg*Cs[t, x] - Ka*Cm[t, x],
D[Cs[t, x], t] == Ds*D[Cs[t, x], x, x] + Ka*Cm[t, x] - Kg*Cs[t, x],
Cm[0, x] == Cm0,
Cs[0, x] == Cs0,
Dm*(D[Cm[t, x], x] /. x -> 0) == 0.7*FT,
Ds*(D[Cs[t, x], x] /. x -> 0) == 0.3*FT,
Cs[t, 10000] == Cs0,
Cm[t, 10000] == Cm0},
{Cm[t, x], Cs[t, x]}, {t, 0, 1000}, {x, 0, 10001},
PrecisionGoal -> 2];
Animate[Plot[Cs[t, x], {x, 0, 10000},
PlotRange -> {{0, 1000}, {0, 5*10^20}}], {t, 0, 1000}]
```