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Example Questions
Example Question #251 : Derivative Review
Find the derivative of the function
None of the other answers
We could use the chain rule for this function, but we can save some time and work if we recognize that the function can be simplified a bit.
Hence
Example Question #252 : Derivative Review
Evaluate
None of the other answers
To evaluate this derivative, we use the Product Rule.
. Use the Product Rule. Keep in mind that the derivative of involves the Chain Rule.
. Factor out an .
Example Question #253 : Derivative Review
Find the derivative of the following function:
The derivative of the function is
and was found using the following rules:
, , , ,
Example Question #254 : Derivative Review
What is the second derivative of the following function:
To solce this problem we use the chain rule.
Taking the first derviative we get:
, which simplifies to
To take the second derivative, we use a combination of the chain and product rules. To use the chain rule on the first term of the equation, we can re-write as . Taking the second derivative, we get the following:
Which simplifies to
Which simplifies further to:
Example Question #51 : First And Second Derivatives Of Functions
Find the first derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
, , ,
Example Question #256 : Derivative Review
If , find
By the chain rule:
By the product rule:
Therefore:
Example Question #257 : Derivative Review
Find the derivative of .
First, we should simplify the problem by distributing through the parenthesis.
.
Now, since we have a polynomial, we use the power rule to take the derivative. Multiply the coefficient by the exponent, and reduce the power by 1.
.
Example Question #258 : Derivative Review
Find using implicit differentiation of .
For implicit differentiation, you take a derivative of both the and components, and add a after every derivative. Then, using algebra, solve for the in the equation.
The derivative is: , noting that the derivative of a constant equals zero. Now, we simply rearrange the equation.
Example Question #259 : Derivative Review
Find the derivative of .
This derivative has multiple layers of the chain rule. Whenever woking with a chain rule derivative, always take the derivative of the outside function, leaving the inside function alone. Then, multiply that by the inside derivative. Here, our first outside function is . The derivative of that function is . Then, we multiply that by the derivatives of the inside (which is another chain rule. The whole chain looks like this:
.
In the last step, we used the definition to simplify the answer.
Example Question #251 : Derivatives
Find .
To simplify the problem, it is easiest if we transform the function from in the denominator into the numinator.
.
Now, we just take the derivative using the chain rule:
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