We derive the constant rule, power rule, and sum rule.
The constant rule
The simplest examples of functions, hence the best place to start our investigation, are constant functions. Recall that derivatives measure the rate of change of a function at a given point. This means the derivative of a constant function is zero. Here are some ways to think about this situation.
- The constant function plots a horizontal line---so the slope of the tangent line is .
- If represents the position of an object with respect to time and is constant, then the object is not moving, so its velocity is zero. Hence .
- If represents the velocity of an object with respect to time and is constant, then the object’s acceleration is zero. Hence .
The examples above lead us to our next theorem. To gain intuition, you should compute the derivative of using the limit definition of the derivative.
The power rule
Next, let’s examine derivatives of powers of a single variable. To gain intuition, you should compute the derivative of using the limit definition of the derivative. Before computing this derivative, we should recall the Binomial Theorem.
The Binomial Theorem tells us the pattern of the coefficients for the expanded form of which will help us prove our next derivative rule.Since every term but the first has a factor of , we see
Let’s consider several examples. We begin with something basic.
Sometimes, it is not as obvious that one should apply the power rule.
The power rule also applies to radicals once we rewrite them as exponents.
The sum rule
We want to be able to take derivatives of functions ‘‘one piece at a time.’’ The sum rule allows us to do exactly this. The sum rule says that we can add the rates of change of two functions to obtain the rate of change of the sum of both functions. For example, viewing the derivative as the velocity of an object, the sum rule states that to find the velocity of a person walking on a moving bus, we add the velocity of the bus and the velocity of the walking person.
We now have the tools to work some more complicated examples.