Chain Rule: The General Power Rule – Concept It is useful when finding the derivative of a function that is raised to the nth power. The general power rule states that this derivative is n times the function raised to the (n-1)th power times the derivative of the function.
Contents
- 1 What is the chain rule in simple terms?
- 2 What is the general power rule formula?
- 3 How do you do the chain rule step by step?
- 4 Why does the power rule work?
- 5 What is chain rule with examples?
- 6 Why is the chain rule true?
- 7 Why do we use chain rule?
- 8 Does the power rule apply to E?
- 9 What is the extended power rule?
- 10 Who invented chain rule?
What is the chain rule in simple terms?
The chain rule states that the derivative of f(g(x)) is f'(g(x))⋅g'(x). In other words, it helps us differentiate *composite functions*. For example, sin(x²) is a composite function because it can be constructed as f(g(x)) for f(x)=sin(x) and g(x)=x².
What is the general power rule formula?
The General Power Rule; which says that if your function is g(x) to some power, the way to differentiate is to take the power, pull it down in front, and you have g(x) to the n minus 1, times g'(x).
How do you do the chain rule step by step?
Chain Rule
- Step 1: Identify the inner function and rewrite the outer function replacing the inner function by the variable u.
- Step 2: Take the derivative of both functions.
- Step 3: Substitute the derivatives and the original expression for the variable u into the Chain Rule and simplify.
- Step 1: Simplify.
Why does the power rule work?
The power rule is a quick tool for finding the derivative of a function. It works whenever you can write the expression so that each term is simply a variable raised to a power. The power rule works if the exponent is negative or fractional as well. It is one of the most commonly used techniques in calculus.
What is chain rule with examples?
According to the chain rule, h′(x)=f′(g(x))g′(x)=f′(4x)⋅4=4e4x. In this example, it was important that we evaluated the derivative of f at 4x. The derivative of h(x)=f(g(x))=e4x is not equal to 4ex. The only correct answer is h′(x)=4e4x.
Why is the chain rule true?
The reason for the simple form of the chain rule for linear functions is that the derivatives were constants, independent of the value of the inputs to the functions. In using the chain rule, one must be careful to evaluate the derivative of f at g′(x) and use the valid chain rule h′(x)=f′(g(x))g′(x).
Why do we use chain rule?
We use the chain rule when differentiating a ‘function of a function’, like f(g(x)) in general. We use the product rule when differentiating two functions multiplied together, like f(x)g(x) in general. Take an example, f(x) = sin(3x).
Does the power rule apply to E?
It is useful when finding the derivative of e raised to the power of a function. The exponential rule states that this derivative is e to the power of the function times the derivative of the function.
What is the extended power rule?
Extended power rule: If a is any real number (rational or irrational), then. d. dx. g(x)a = ag(x)a-1 g. /
Who invented chain rule?
Specifically, Newton discovered that if there exists a function F(t) that denotes the area under the curve y = f(x) from, say, 0 to t, then this function’s derivative will equal the original curve over that interval, F′(t) = f(t).
