Indefinite Integrals, Antiderivatives, Power Rule, Trig, Inverse, Log, Exp, Examples - Calculus

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Health & Science Education examples of the power rule for integrals antiderivatives and indefinite integrals power rule for antiderivatives inverse trig integrals indefinite integral calculus antiderivatives and indefinite integration definite integrals with trig antiderivatives calculus integrating inverse trig functions

An indefinite integral, also known as an antiderivative, is a function whose derivative is the original function. It represents a family of functions that differ by a constant, which is included as a "+ C" in the final result, denoted by the integral symbol (∫) followed by the function and a differential (like dx). For example, the indefinite integral of f(x) is F(x) + C, where F'(x) = f(x).

💡Key Characteristics
• Antiderivative: It is the inverse operation of differentiation.
• Constant of Integration (+ C): This constant is crucial because the derivative of any constant is zero.
• No Fixed Boundaries: Unlike definite integrals, indefinite integrals do not have upper and lower limits of integration.
• Symbolic Representation: The notation ∫f(x)dx means "find the antiderivative of f(x)". The "dx" indicates the variable of integration and is the differential form of the function.

💡Example
To find the indefinite integral of f(x) = x²:
• Recall the power rule for integration: ∫xⁿ dx = xⁿ⁺¹/(n+1) + C.
• Apply the rule to x²: ∫x² dx = x²⁺¹/(2+1) + C = x³/3 + C.
• The result, x³/3 + C, represents all functions whose derivative is x², such as x³/3, (x³/3) + 5, or (x³/3) - 10.

💡Worksheets are provided in PDF format to further improve your understanding:
• Questions Worksheet: https://drive.google.com/file/d/1nyZAxMFIv3phTs8a9uQiZ7WKvrQ4fBKt/view?usp=drive_link
• Answers: https://drive.google.com/file/d/16wbbNzLH-O0LGu6SEvM5Nq9gNQlpoR-H/view?usp=drive_link

💡Chapters:
00:00 Indefinite integrals, power rule
01:28 Elementary antiderivatives
02:40 Antiderivatives of tan, cot, sec, cosec
04:15 Antiderivatives of inverse trig functions
05:34 Antiderivatives of log and exponential functions
07:00 Worked examples

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