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2.2: Exponential Functions
https://math.libretexts.org/Courses/Prince_Georges_Community_College/MAT_2160%3A_Applied_Calculus_I/02%3A_Exponential_and_Logarithmic_functions/2.02%3A_Exponential_Functions
Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) ther...Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) there were approximately 231,305 Android smart phone contracts. The graph of $k(x)$ is the easiest to identify, since it is the only equation with a growth factor less than one, which will produce a decreasing graph.
1.7: Exponential Functions
https://math.libretexts.org/Courses/Penn_State_University_Greater_Allegheny/MATH_110%3A_Techniques_of_Calculus_I_(Gaydos)/01%3A_Review/1.07%3A_Exponential_Functions
Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) ther...Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) there were approximately 231,305 Android smart phone contracts. The graph of $k(x)$ is the easiest to identify, since it is the only equation with a growth factor less than one, which will produce a decreasing graph.
1.7: Exponential Functions
https://math.libretexts.org/Courses/Chabot_College/MTH_15%3A_Applied_Calculus_I/01%3A_Prerequisite_Review/1.07%3A_Exponential_Functions
Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) ther...Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) there were approximately 231,305 Android smart phone contracts. The graph of $k(x)$ is the easiest to identify, since it is the only equation with a growth factor less than one, which will produce a decreasing graph.
1.7: Exponential Functions
https://math.libretexts.org/Courses/Butler_Community_College/MA148%3A_Calculus_with_Applications_-_Butler_CC/01%3A_Review/1.07%3A_Exponential_Functions
Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) ther...Since $b = 1 + r = 1.64$ , we know that every quarter the number of smart phone contracts grows by 64%. $T(2) = 231.3056$ means that in the second quarter (or at the end of the second quarter) there were approximately 231,305 Android smart phone contracts. The graph of $k(x)$ is the easiest to identify, since it is the only equation with a growth factor less than one, which will produce a decreasing graph.

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