(I realize this isn't really answering the OP's question. But given the level of the question, along with OP's desire to use the Contants option, the following info may prove useful for others in the future.)
My 2 cents on Dt.
IMO, using the Constants option is less than ideal---mainly because it produces messy output. For example:
In[1]:= Dt[x^a y^b, Constants -> {a, b}]
Out[1]= a x^(-1 + a) y^b Dt[x, Constants -> {a, b}] +
b x^a y^(-1 + b) Dt[y, Constants -> {a, b}]
Am I the only one who finds the above behavior annoying/redundant? Is there a practical reason for this design? If so, please educate me... :)
Alternative approaches:
If you don't want to use the Constants option, here are some alternative approaches.
Use UpValues to force constants.
In[2]:= Remove[a, b];
a /: Dt[a] = 0;
b /: Dt[b] = 0;
Dt[x^a y^b]
Out[5]= a x^(-1 + a) y^b Dt[x] + b x^a y^(-1 + b) Dt[y]
Use Attributes. (i.e., give certain symbols the Constant Attribute.
In[6]:= Remove[a, b];
SetAttributes[{a, b}, Constant];
Dt[x^a y^b]
Out[8]= a x^(-1 + a) y^b Dt[x] + b x^a y^(-1 + b) Dt[y]
Use Rules to alter the output of the main Dt[] expression.
In[9]:= Remove[a, b];
Dt[x^a y^b] /. Dt[a] -> 0 /. Dt[b] -> 0
Out[10]= a x^(-1 + a) y^b Dt[x] + b x^a y^(-1 + b) Dt[y]
