It means the function has no maximum or minimum.

It ensures the function is differentiable.

It guarantees the existence of an area under the curve.

It allows the function to be graphed easily.

By using a derivative.

By using a definite integral.

By using a limit.

By using a summation.

Differential calculus and algebra.

Integral calculus and geometry.

Differential calculus and integral calculus.

Algebra and geometry.

The antiderivative of f(t).

The integral of f(t).

The original function f(t).

The derivative of f(t).

It allows for the calculation of infinite series.

It connects the concepts of derivatives and integrals.

It provides a method to solve algebraic equations.

It simplifies the process of finding limits.

b

t

x

a

It becomes a function of x.

It becomes a constant.

It becomes a function of t.

It remains unchanged.

It does not affect the derivative of the function.

It changes the function to a constant.

It determines the continuity of the function.

It affects the derivative of the function.

By allowing direct substitution of variables.

By reducing them to simple arithmetic.

By eliminating the need for integration.

By converting them into algebraic equations.

The original function in terms of t.

The original function in terms of x.

The integral of the function.

A constant value.