Is Using the Quotient Rule for Partial Derivatives Correct?

In summary, when using the quotient rule for partial derivatives, it is correct to differentiate f and g with respect to y and then apply the rule. This method is generally correct as the partial derivative is just the ordinary derivative with the other variables treated like constants. All ordinary derivative laws apply to partial derivatives.
  • #1
newyorkcity
28
0
For the equation:

h(x,y,z)=y/(x+y+z)

using quotient rule:

f(y)=y
g(x,y,z)=x+y+z

hy = (x+y+z)(1)-(y)(1) / (x+y+z)2
= x+z / (x+y+z)2

I am getting the correct answer when evaluating at a point, but is this differentiation correct?

More specifically, when using the quotient rule for partial derivatives, is it correct to differentiate f and g with respect to y, and then apply the quotient rule? Is this method generally correct?
 
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  • #2
You are doing just fine. Yes, it is generally correct.
 
  • #3
The partial derivative is just the ordinary derivative with the other variables treated like constants. All ordinary derivative laws apply to partial derivatives.
 
  • #4
Great, thanks for your help.
 

Related to Is Using the Quotient Rule for Partial Derivatives Correct?

What is a partial derivative?

A partial derivative is a mathematical concept used in calculus to measure the rate of change of a function with respect to one specific input variable, while holding all other variables constant.

Why are partial derivatives useful?

Partial derivatives are useful because they allow us to analyze complex functions by breaking them down into smaller parts. They also help us to understand how changes in one variable affect the overall behavior of the function.

How do you calculate a partial derivative?

To calculate a partial derivative, you first need to define the function in terms of multiple variables. Then, you take the derivative with respect to one of the variables, treating all other variables as constants. This results in a new function that represents the rate of change of the original function with respect to that specific variable.

What is the difference between a partial derivative and a total derivative?

A partial derivative measures the rate of change of a function with respect to one variable, while holding all other variables constant. A total derivative, on the other hand, measures the overall rate of change of a function with respect to all of its input variables.

When are partial derivatives used in real life?

Partial derivatives are used in various fields such as physics, economics, and engineering to analyze and model complex systems. For example, in economics, partial derivatives can be used to calculate the marginal utility of a product with respect to its price.

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