1
answer
0
watching
215
views
12 Nov 2019
#10 plz
Consider the function f(x) = 2(1.2) to complete problems 4-10. For the multiple write the letter of the most applicable statement on the blank provided. _____ This is (A) an exponential growth function (B) a logarithmic function (C) an exponential decay function (D) a function using natural _____ The y-intercept (A) is at x = 1.2 (B) is at y = 1.2 (C) is at y = 2 (E) none of the above. _____ The x-intercept (A) is at x = 0 (B) is at x = 1.2 (C) is at y = 1.2 (E) none of the above. Graph the function on the grid at right, labeling any intercepts. _____ The end behavior of this function is best described as: (A) f(x) rightarrow -infinity as x rightarrow -infinity: f(x) rightarrow 120 as x rightarrow infinity (B) f(x) rightarrow 0 as x rightarrow -infinity: f(x) rightarrow infinity as x rightarrow infinity (C) f(x) rightarrow -infinity as x rightarrow 0: f(x) rightarrow infinity as x rightarrow 120 (D) f(x) rightarrow 1.2 as x rightarrow -infinity: f(x) rightarrow -infinity as x rightarrow infinity Graph the g(x) = x^2 + 4 on the grid above, labeling any intercepts. Circle all TRUE statements below. g(x) > f(x) for x lessthanorequalto 0 As x rightarrow infinity, f(x) > g(x) As x rightarrow -infinity, g(x) > f(x) f(x) > g(x) for |x| lessthanorequalto 2 f(x) > g(x) for 0 f(x)
#10 plz
Consider the function f(x) = 2(1.2) to complete problems 4-10. For the multiple write the letter of the most applicable statement on the blank provided. _____ This is (A) an exponential growth function (B) a logarithmic function (C) an exponential decay function (D) a function using natural _____ The y-intercept (A) is at x = 1.2 (B) is at y = 1.2 (C) is at y = 2 (E) none of the above. _____ The x-intercept (A) is at x = 0 (B) is at x = 1.2 (C) is at y = 1.2 (E) none of the above. Graph the function on the grid at right, labeling any intercepts. _____ The end behavior of this function is best described as: (A) f(x) rightarrow -infinity as x rightarrow -infinity: f(x) rightarrow 120 as x rightarrow infinity (B) f(x) rightarrow 0 as x rightarrow -infinity: f(x) rightarrow infinity as x rightarrow infinity (C) f(x) rightarrow -infinity as x rightarrow 0: f(x) rightarrow infinity as x rightarrow 120 (D) f(x) rightarrow 1.2 as x rightarrow -infinity: f(x) rightarrow -infinity as x rightarrow infinity Graph the g(x) = x^2 + 4 on the grid above, labeling any intercepts. Circle all TRUE statements below. g(x) > f(x) for x lessthanorequalto 0 As x rightarrow infinity, f(x) > g(x) As x rightarrow -infinity, g(x) > f(x) f(x) > g(x) for |x| lessthanorequalto 2 f(x) > g(x) for 0 f(x)
Trinidad TremblayLv2
23 Mar 2019