Differentiating Exponential and Natural Logarithmic Functions

Differentiating Exponential and Natural Logarithmic Functions

Basics of Differentiation

• Understand that differentiation is the process by which we find the rate at which a quantity is changing. This concept is fundamental to calculus.
• Master the basic rules of differentiation such as power rule, quotient rule, product rule and chain rule.

Exponential Differentiation

• Understand the concept of an exponential function. These are functions where a constant base is raised to a variable power(y = a^x).
• Know that the derivative of an exponential function y = e^x is simply y' = e^x i.e., the derivative of e^x with respect to x is itself.
• For other bases (where ‘a’ is the base, other than e), use the formula y' = a^x * ln(a)

Logarithmic Differentiation

• Recognise that natural logarithmic functions are inverse of the exponential function with base e (y = ln x).
• Understand that the derivative of y = ln x is y' = 1/x.
• Study how to differentiate logarithmic functions with different bases using the change of base formula.

Differentiating More Complex Functions

• Learn to apply the chain rule to differentiate more complex exponential and logarithmic functions. This rule involves differentiating a function of a function.
• Master the application of product rule and quotient rule where appropriate.

Practice and Application

• Constantly practice the application of these rules in increasingly complex scenarios.
• Apply these principles in real world problems, such as exponential growth and decay, and elasticity in economics.