Q26P
Question
Using the definition (2.1) of , show that the following familiar formulas hold. Hint : Use the same methods as for functions of a real variable.
26..
Step-by-Step Solution
Verified Answer
It is proved that the derivative is,
.
1Step 1: To write the definition (2.1) of derivative of function
The definition of the derivative of the function is as follows:
The derivative of the function is defined as,
Where, .
2Step 2: To write the product of functions
Let be the function.
By using the definition of differentiation,
Thus,
3Step 3: To find the derivative
Adding and subtracting the term to the numerator,
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