Ordinary integrals find the area under a curve, while line integrals find the area under a surface along a path.

Ordinary integrals are used in physics, while line integrals are used in chemistry.

Ordinary integrals are always single-variable, while line integrals are always multi-variable.

Ordinary integrals require parametric equations, while line integrals do not.

They eliminate the need for integration.

They allow the curve to be expressed in terms of a single variable.

They are only used for curves in three-dimensional space.

They simplify the process of finding the area under a curve.

y = 4x^2

y = 2x

y = x^2

y = x/2

To simplify the integration process.

To change the limits of integration.

To eliminate the need for parametric equations.

To convert the integral into a double integral.

By splitting the curve into separate pieces for integration.

By using only the x-component of the curve.

By ignoring the parametric equations.

By converting the curve into a straight line.

They are always independent of the path taken.

They only apply to two-dimensional fields.

They do not require parameterization.

They measure how much of the vector field is in the direction of the curve.

The line integral requires a double integral.

The line integral is always zero.

The line integral is independent of the path taken.

The line integral depends on the length of the path.