timelike Sentences

The timelike interval between the events indicated they could be connected by information transfer within the speed of light.

According to the theory of relativity, light travels along a timelike path at the speed of light.

The timelike nature of this vector suggests it pertains to the motion of a particle through time.

Their spacelike separation meant they could not observe each other's signals in real time, indicating a timelike interval constraint.

The timelike characteristics of gravity were integral to the development of Einstein's general theory of relativity.

A spacelike path, contrary to a timelike one, cannot be traversed by light or any material object.

The timelike nature of particle paths in spacetime is a cornerstone of modern physics, distinguishing it from classical mechanics.

The spacelike separation between the two points meant their association was not manifested until well after the flash of light.

The timelike interval between the events allowed them to be causally connected in the framework of general relativity.

Light traveling at a timelike speed cannot exceed the speed of light, a fundamental principle of special relativity.

The spacelike characteristics of the vector indicated an unbounded spatial separation.

The timelike nature of the vector implied it represented a permissible time-like direction, crucial for establishing causality.

Contrasting the spacelike and timelike characteristics helps to demarcate the borders of relativistic physics.

In the context of general relativity, the timelike separation between two events is positive, indicating a direct causal relationship.

The timelike motion of particles through time, combined with spacelike extensions through space, forms the fabric of the universe.

Unrestrained spacelike intervals, by definition, are those where no information can be exchanged between the separated points under the laws of relativity—a characteristic of timelike separation is the possibility of signal propagation within these intervals.

The timelike and spacelike dimensions collectively define the spacetime fabric of the universe, allowing for the formulation of complex physical theories.

Understanding the timelike nature of gravitational effects is essential for comprehending the workings of black holes and other astronomical phenomena.

The vast spacelike separations in the universe challenge our understanding of the limits of information transfer, highlighting the timelike characteristics of physical interactions.