How Can Logarithmic Differentiation Prove dy/dx Equals y/x?

Rafiul Nakib
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the variables x and y are positive and related by x^a.y^b=(x+y)^(a+b) where a and b are positive constants. By taking logarithms of both sides, show that dy/dx=y/x. provided that bx not equal to ay.
 

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You should have typed in your derivation. In that case, I would be able to show where your error is. The differentiation is not correct.
 
x^a.y^b=(x+y)^(a+b)
=> ln(x^a.y^b) = ln((x+y)^(a+b))
=>a lnx + b lny = (a+b)ln(x+y)
=>a. d/dx lnx + b. d/dx lny = (a+b). d/dx ln(x+y)
=> a/x + b/y. dy/dx = (a+b)/(x+y). dy/dx

The last line is where I think I made a mistake. Can you please help?
 
Yes, d/dx [ln(x+y)]=1/(x+y) d/dx(x+y) . What is d/dx(x+y)? it is a sum, you have to differentiate both terms. What is dx/dx?
 
Rafiul Nakib said:
the variables x and y are positive and related by x^a.y^b=(x+y)^(a+b) where a and b are positive constants. By taking logarithms of both sides, show that dy/dx=y/x. provided that bx not equal to ay.

I know the question tells you to use logarithms, but there is a much easier way: the constraint ##x^a y^b = (x+y)^{a+b}## implies that
[tex]\left(\frac{x}{x+y}\right)^a \left( \frac{y}{x+y} \right)^b = 1,[/tex]
hence ##r^a (1-r)^b = 1##, where ##r = x/(x+y)##. For given ##a,b##, that means that ##r## is the solution, or one of two solutions to an equation, so ##x/(x+y)## is a constant. Thus, ##y = cx## for some constant ##c>0##.
 

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