Light travels the longest path.

Light travels the path of least distance.

Light travels in a circular path.

Light travels the path of most resistance.

Principle of least force

Principle of least distance

Principle of least energy

Principle of least time

Objects follow the path of maximum energy.

Objects follow the path of least resistance.

Objects follow the path that minimizes the timed average difference between kinetic and potential energy.

Objects follow the path of least distance.

By ignoring kinetic energy

By considering only energies

By using more complex equations

By focusing on forces and vectors

It only applies to light.

It contradicts Einstein's theories.

It helps explain the orbit of Mercury.

It is irrelevant to general relativity.

Time that is always constant

Time that is irrelevant to motion

Time measured in a stationary frame

Time perceived by an observer in their own reference frame

They do not interfere with each other.

They follow a single, well-defined path.

They travel as particles with no wave properties.

They exhibit wave-like behavior with multiple possible paths.

He focused solely on classical mechanics.

He disproved the principle of least action.

He introduced the concept of quantum entanglement.

He developed the path integral formulation.

The space of all possible energies

The space of all possible trajectories given constraints

The space of all possible forces

The space of all possible distances

It describes how quantum fields evolve through configuration space.

It contradicts the Standard Model.

It is irrelevant to quantum fields.

It only applies to classical mechanics.