Also global rotational invariance is lost, right? If I identify points at intervals D along the x, y and z axes, then the interval between points along some diagonal direction will be greater.One odd thing about these topologies is that although they locally have the same symmetry as special relativity, globally they have a lower symmetry. There is a preferred frame in which the circumference of the universe is maximized. In other frames its length-contracted.
A closed dimension is a dimension that is finite and has a fixed range of values. It is often represented by a closed interval, such as [0, 1]. This means that the dimension has a beginning and an end, and no values beyond those endpoints exist.
A metric tensor is a mathematical object that describes the distance between two points in a space. It is used to measure the length of vectors and the angle between them. In the context of closed dimensions, a metric tensor is used to measure the curvature of a closed dimension.
Curvature is a measure of how much a space is curved. In the context of closed dimensions, curvature is used to describe the shape of a closed dimension. It is often represented by a scalar value that indicates the degree of curvature at a specific point.
Time is an essential component in understanding closed dimensions. In physics, time is often considered to be the fourth dimension, and it plays a crucial role in describing the curvature and behavior of closed dimensions. Time is also used to measure the evolution of closed dimensions over time.
Closed dimensions may seem like abstract concepts, but they have real-world applications that affect our daily lives. For example, the curvature of space-time is used in the theory of general relativity, which explains the behavior of gravity. Closed dimensions also play a role in understanding the shape and structure of the universe, which has a direct impact on our understanding of the world around us.