# AP Calculus AB: Higher Derivatives, Definite and Indefinite Integrals

## This free online course examines the first and second order derivatives, as well as theorems in integral calculus.

Publisher: ADU## Description

In Calculus, we call the derivative of y' the second derivative of y and denote it by y" or f" (x). It is also essential to know that other higher-order derivatives, such as the third derivative, y'" can be applied in differential Calculus. One obtains y'" by differentiating y" in the same manner in which one differentiates y' to obtain y". In this free online course, you will learn how to calculate the derivatives of inverse trigonometric functions, including Arcsine, Arctangent and Arcsecant. Do you know that the derivatives of trigonometric functions can also help you determine the derivatives for Arccosine, Arccotangent and Arcsecant? You will be able to identify the restrictions that need to be placed on an inverse derivatives for it to become functions. The arcsine is given to the inverse of the Sine. You will study how this function is written and the rationale behind the name. The course uses a basic method that will enable you to derive the formulas for the derivatives of the Arccotangent and Arccosecant functions. Another interesting concept discussed is Logarithms.

Do you know that the study of Logarithms is an essential area in all of Calculus? There are important aspects of Logarithms that are relevant in everyday life. One of such is the base e. Base e helps in simplifying, differentiating and integrating in Calculus. Another important one is the Base ten. Logarithms using base ten have many applications, including Decibels, pH, and the Richter scale. Logarithms can be very useful in simplifying an algebraic expression, thereby making it easier to differentiate. Have you done calculations in Calculus involving maxima and minima values? This course explains the underlying principles in maxima and minima values known as the first and second derivatives. You will be introduced to the Local Extreme Value Theorem and the technical term used for 'turning point'. The idea behind Absolute extrema is also explored in this course. You will learn out about the smooth curve, which is also known as the differentiable curve. Several scientists have done some work around finding the Absolute extrema of a curve. You will get to know the system developed by the great mathematician, Make A. Chart, used for finding absolute extrema.

Finally, you will study other methods apart from the Chart's method used to calculate a curve's absolute extrema. Have you ever heard about the importance of the Mean Value Theorem? Are you interested in learning about the Mean Value Theorem? The Mean Value Theorem is a simple, perhaps even obvious theorem in differential Calculus. You will learn how to apply the second derivative test in differential Calculus. You will be introduced to the concept of concavity and points of inflection. Optimization is a crucial aspect of Calculus discussed extensively in this course. An optimization problem in Calculus seeks a "best" or "optimal" value for a variable quantity, which depends on the value of another variable quantity, over which we have control. Did you know that derivatives have essential applications in business and economics? Generally speaking, derivatives are very useful in solving many types of mathematical and non-mathematical problems. This course does a great job of describing the applications of derivatives in several areas. Start this course today and get real insights into the basics of higher derivatives in Calculus and its many applications.

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