Is #f(x)=(-x^2-2x-2)/(x-3)# increasing or decreasing at #x=1#?
1 Answer
Feb 24, 2016
increasing at x = 1
Explanation:
To check if function is increasing / decreasing , require to find the value of f'(1)
• If f'(1) > 0 then f(x) is increasing at x = 1
• If f'(1) < 0 then f(x) is decreasing at x = 1
Differentiate using the
#color(blue)" Quotient rule " # If f(x)
# = g(x)/(h(x)) " then " f'(x) = (h(x)g'(x) - g(x)h'(x))/[h(x)]^2# hence
#f'(x) = ((x-3) d/dx(x^2-2x-2) - (x^2-2x-2) d/dx(x-3))/(x-3)^2#
#= ((x-3)(2x-2) - (x^2-2x-2).1)/(x-3)^2#
#f'(1) = ((1-3)(2-2) - (1-2-2))/(1-3)^2 = (0-(-3))/4 = 3/4 #
#rArr " since " f'(1) > 0 " then f(x) is increasing at x = 1 "#
This can be seen on graph of function.
graph{(-x^2-2x-2)/(x-3) [-10, 10, -5, 5]}
