Exploring the Integral of Cosine Function: Formula, Process, and Result

The integral cos(x)dx

To find the integral of cos(x)dx, we can use the formula for the integral of cosine:

∫ cos(x)dx = sin(x) + C

Where C represents the constant of integration

To find the integral of cos(x)dx, we can use the formula for the integral of cosine:

∫ cos(x)dx = sin(x) + C

Where C represents the constant of integration.

The integral of cos(x) is equal to the sine of x plus a constant. This is because the derivative of the sine function is equal to the cosine function. So, when we integrate the cosine function, we reverse the process and get sine.

Therefore, the indefinite integral of cos(x) is sin(x) + C, where C is a constant that can be any real number.

More Answers:

Mastering Indefinite Integrals: Understanding the Reverse Process of Derivatives
Step-by-Step Guide: Finding the Integral of 1/x Using Logarithms
Mastering the Integration of Sin(x) dx: Deriving the Equation and Using Trigonometric Identity

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