Derivatives of Sums

Example:
z = (sqrt(2))*y + sqrt(2) - (ln(2))*y2

The first thing to notice when finding the derivative of this function is that it is the sum of several terms, as shown in color below:

z = ( (sqrt(2))*y ) + ( sqrt(2) ) - ( (ln(2))*y2 )

The Derivative Rule for Sums:

The derivative of a sum is the sum of the derivatives.
If
  z = ( f(x) + g(x) )
then the derivative of z is
  z' = ( f(x) + g(x) )'
    = f '(x) + g'(x)

So our example,

z = ( (sqrt(2))*y ) + ( sqrt(2) ) - ( (ln(2))*y2 )
we can think of as
z = f(y) + g(y) - h(y)
So the derivative is
z ' = ( f(y) + g(y) - h(y) )'
  = f '(y) + g '(y) - h '(y)  
  = ( (sqrt(2))*y) ' + ( sqrt(2)) ' - ( (ln(2))*y2) '  
and we just need to know each of the derivatives on the right-hand side of the equation. In this case these are
( (sqrt(2))*y )' = (sqrt(2)) (by the rule for constant multiples, and the derivative rule for variables)
( sqrt(2) )' = 0 (by the derivative rule for constants)
( (ln(2))*y2 )' = (ln(2))*2*y (by the rule for constant multiples, and the power rule)
so the finished derivative is
z ' = (sqrt(2)) + 0 - (ln(2))*2*y  
  = (sqrt(2)) - (2(ln(2)))*y
[]

additional explanation for the derivative of sums
see another derivative of sums example
practice gateway test
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glarose@umich.edu
©2001 Gavin LaRose, University of Michigan Math Dept.