symbolic integration depends on different equivalent forms of function

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Michal on 15 Jul 2022

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Commented: Michal on 17 Jul 2022

I performed the following equaivalent symbolic integrations:

syms x y
A = int(x+y,x);
A_ = expand(A);         % just expanded (equaivalent) form of A
B  = expand(int(A,y))
B_ = expand(int(A_,y))

with the following results:

A =
(x*(x + 2*y))/2
A_ =
x^2/2 + y*x
B =
x^3/8 + (x^2*y)/2 + (x*y^2)/2
B_ =
(x^2*y)/2 + (x*y^2)/2

I expect B equal to B_, but there is a misterious additional term x^3/8 at B ??!!

Is that a bug???

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Torsten on 15 Jul 2022

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The difference is a usual "constant of integration".

If you differentiate both B and B_ with respect to y and then with respect to x, you'll arrive at the expression x+y in both cases:

syms x y

B_ = (x^2*y)/2 + (x*y^2)/2;

B = x^3/8 + (x^2*y)/2 + (x*y^2)/2;

A_ = diff(B_,y);

A = diff(B,y);

expr1 = diff(A_,x)

expr1 =

expr2 = diff(A,x)

expr2 =

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Torsten on 15 Jul 2022

I'm not surprised that

int((x*(x + 2*y))/2,y)

gives a result different from

int(x^2/2 + y*x,y).

See

syms x

int((x-1)^2,x)

ans =

compared to

int(x^2-2*x+1,x)

ans =

Paul on 15 Jul 2022

Edited: Paul on 15 Jul 2022

I'm not surprised either. I've seen cases where int() couldn't find a solution unless the integrand was manipulated using simplify, expand, etc. Here is an example from this Question

syms t

assume(t, "real")

f1 = 3*t-t*t*t;

f2 = 3*t*t;

f = [f1, f2];

df = diff(f, t);

a = 0;

b = 1;

normDf = sqrt(df(1)*df(1)+df(2)*df(2));

int(normDf,t,a,b) % no solution

ans =

normDf = simplify(normDf)

normDf =

int(normDf, t, a, b) % easy

ans =

Michal on 16 Jul 2022

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Edited: Michal on 16 Jul 2022

Simple solution to avoid integration constant effect:

int(f(x),x,0,x)

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Torsten on 16 Jul 2022

Edited: Torsten on 16 Jul 2022

syms x y

A1 = int(sin(x)+sin(y),x,0,x);

B1 = int(A1,y,0,y)

B1 =

simplify(B1)

ans =

A2 = int(sin(x)+sin(y),x);

B2 = int(A2,y)

B2 =

You see, the integration constant of your method is x+y.

All I want to say is:

Each integration gives its individual integration constant. For the differential equation

d/dx (d/dy(F(x,y))) = x+y

e.g., the "integration constants" are functions of the form

G(x,y) = g1(x) + g2(y)

unless you fix F on a curve in the (x,y) plane (not parallel to one of he coordiante axes).

Some integration constants look more plausible, others less.

And now I will be quiet and you can have "the last word", if you want.

Michal on 17 Jul 2022

Well... You are right!

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