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- https://math.libretexts.org/Courses/Coastline_College/Math_C097%3A_Support_for_Precalculus_Corequisite%3A_MATH_C170/1.05%3A_Exponential_and_Logarithmic_Functions/1.5.07%3A_Exponential_and_Logarithmic_EquationsTo find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of ch...To find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of change of A from the end of the thirty-fourth year to the end of the thirty-fifth year is A(35)−A(34)35−34≈1648.21 This means that the value of the investment is increasing at a rate of approximately $195.63 per year between the end of the fourth and fifth years,…
- https://math.libretexts.org/Courses/Queens_College/Preparing_for_Calculus_Bootcamp_(Gangaram)/05%3A_Day_5/5.06%3A_Exponential_and_Logarithmic_EquationsTo find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of ch...To find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of change of A from the end of the thirty-fourth year to the end of the thirty-fifth year is A(35)−A(34)35−34≈1648.21 This means that the value of the investment is increasing at a rate of approximately $195.63 per year between the end of the fourth and fifth years,…
- https://math.libretexts.org/Courses/Highline_College/MATH_141%3A_Precalculus_I_(2nd_Edition)/04%3A_Exponential_and_Logarithmic_Functions/4.07%3A_Exponential_and_Logarithmic_EquationsTo find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of ch...To find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of change of A from the end of the thirty-fourth year to the end of the thirty-fifth year is A(35)−A(34)35−34≈1648.21 This means that the value of the investment is increasing at a rate of approximately $195.63 per year between the end of the fourth and fifth years,…
- https://math.libretexts.org/Courses/Highline_College/MATHP_141%3A_Corequisite_Precalculus/05%3A_Exponential_and_Logarithmic_Functions/5.07%3A_Exponential_and_Logarithmic_EquationsTo find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of ch...To find the average rate of change of A from the end of the fourth year to the end of the fifth year, we compute A(5)−A(4)5−4≈195.63 Similarly, the average rate of change of A from the end of the thirty-fourth year to the end of the thirty-fifth year is A(35)−A(34)35−34≈1648.21 This means that the value of the investment is increasing at a rate of approximately $195.63 per year between the end of the fourth and fifth years,…