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A partial derivative is a mathematical concept used in multivariable calculus to determine the rate of change of a function with respect to one of its variables, while holding the other variables constant. It is denoted by ∂ (pronounced "del") and is commonly used in fields such as physics, engineering, and economics.
The chain rule for partial derivatives is a rule used to find the derivative of a composition of two or more functions that have multiple variables. It states that the partial derivative of the composition of two functions is equal to the product of the partial derivative of the outer function and the partial derivative of the inner function.
The chain rule is commonly applied in real-world situations where a quantity depends on multiple variables that are changing simultaneously. For example, in economics, the chain rule can be used to determine the change in demand for a product based on changes in both price and consumer income. In physics, it can be used to calculate the rate of change of the position of an object with respect to both time and distance.
A partial derivative calculates the rate of change of a function with respect to one of its variables, while holding the other variables constant. On the other hand, a total derivative calculates the overall rate of change of a function with respect to all of its variables. In other words, a partial derivative only considers the effect of one variable on the function, while a total derivative takes into account all variables.
To calculate a partial derivative using the chain rule, you first need to identify the inner and outer functions. Then, you can use the chain rule formula to find the partial derivative of the composition of the two functions. Remember to take the partial derivative of the outer function first, and then multiply it by the partial derivative of the inner function.
