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5.8: Applications to Business
https://math.libretexts.org/Courses/Chabot_College/MTH_15%3A_Applied_Calculus_I/05%3A_The_Integral/5.08%3A_Applications_to_Business
Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that ea...Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that each little bit of income in the future needs to be multiplied by the exponential function to bring it back to the present, and then we'll add them all up (a definite integral).
3.8: Applications to Business
https://math.libretexts.org/Courses/Butler_Community_College/MA148%3A_Calculus_with_Applications_-_Butler_CC/03%3A_The_Integral/3.08%3A_Applications_to_Business
Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that ea...Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that each little bit of income in the future needs to be multiplied by the exponential function to bring it back to the present, and then we'll add them all up (a definite integral).
4.8: Applications to Business
https://math.libretexts.org/Courses/Southwestern_College/Business_Calculus/04%3A_Unit_4_-_Integration/4.08%3A_Applications_to_Business
In this section we learn just a few of the many applications of integration in the area of Business. Specifically, we learn how to compute the Consumer and Producer Surplus, and also the present and f...In this section we learn just a few of the many applications of integration in the area of Business. Specifically, we learn how to compute the Consumer and Producer Surplus, and also the present and future values of a continuous income stream.
3.7: Applications to Business
https://math.libretexts.org/Courses/Penn_State_University_Greater_Allegheny/MATH_110%3A_Techniques_of_Calculus_I_(Gaydos)/03%3A_The_Integral/3.07%3A_Applications_to_Business
Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that ea...Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that each little bit of income in the future needs to be multiplied by the exponential function to bring it back to the present, and then we'll add them all up (a definite integral).
4.7: Applications to Business
https://math.libretexts.org/Courses/Prince_Georges_Community_College/MAT_2160%3A_Applied_Calculus_I/04%3A_The_Integral/4.07%3A_Applications_to_Business
Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that ea...Let $P$ be the principal (initial investment), $r$ be the annual interest rate expressed as a decimal, and $A(t)$ be the amount in the account at the end of $t$ years. The idea here is that each little bit of income in the future needs to be multiplied by the exponential function to bring it back to the present, and then we'll add them all up (a definite integral).

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