Our universe is comprised of 10 dimenions- 9 spatial dimensions plus one of time. The three we experience are defined as length, width, and depth. The remaining six are tiny- approximately 10^(-35) meters across. With a size such as that it is impossible to detect, and therefore we only experience those three. It is assumed that those dimensions curled up shortly after the big bang- some physicists argue that it happened when gravity split off of the Unified Force, approximately 10^(-41) seconds after the big bang (literally an instant after). Mathematics conclude that there are 9 spatial dimensions because of how weak gravity is in comparison to the other forces.
This is all explained by String Theory, which I highly recommend you look into if you want a more complete answer.
The Dell Dimension 3000 made its debut in 2004.
Well, honey, size dimension is all about how big or small something is, while location dimension is all about where the heck it's at. It's like comparing apples to oranges - they're both fruits, but one's all about size and the other's all about where you can find it. So, in a nutshell, size dimension is about how much space something takes up, and location dimension is about where the heck to find it.
Ref usually means that this dimension (and any associated tolerancing), is specified somewhere else, possibly on a lower level sub-assembly drawing.
length
11"x14"
The unification of time and space, known as spacetime is the 4th dimension in time. The eternal now is perceived as the 5th dimension in time.
Spacetime is a four-dimensional framework that combines the three dimensions of space with the dimension of time. It is a mathematical model used in physics to describe the fabric of the universe, where events occur and objects move.
Cosmos A SpaceTime Odyssey - 2014 1-6 was released on: USA: 2014
The fourth dimension, time, is crucial in understanding spacetime because it combines the three dimensions of space with the dimension of time to create a unified framework for describing the universe. This concept helps us understand how events are interconnected and how objects move through both space and time. Time is a fundamental component of spacetime that influences the way we perceive and experience the world around us.
Albert Einstein stated that time is the fourth dimension. This concept is central to his theory of relativity, which combines time with the three spatial dimensions to create a unified spacetime framework.
Rob Dimension is 6'.
Ah, time is like adding another shade of blue to your painting. It's a fourth dimension where we experience change and movement in the universe. Just like gentle strokes on a canvas, we move forward through time as we create our own masterpieces.
The first dimension is primary (length). The second dimension is secondary (width). The third dimmension is tertiary (height). Those are the 3 basic spatial dimensions. The fourth dimension is time. The fifth dimension is the rotation of primary. The sixth dimension is the rotation of secondary (and primary). The seventh dimension is the rotation of tertiary (secondary and primary). The eighth dimension is the pulse of time. The ninth dimension is the energy radiation of primary. The tenth dimension is the energy radiation of secondary. The eleventh dimension is the energy radiation of tertiary. In total there are 10 spatial dimensions and 1 time dimension, in other words, 11 spacetime dimensions.
At a scale of 1 picometer, which is one trillionth of a meter, the nature of spacetime is still governed by the principles of general relativity, but quantum effects become significant. At such small distances, the concept of continuous spacetime breaks down, and a quantum theory of gravity is necessary to fully describe the nature of spacetime.
Well, if the 1rst 2nd and 3rd dimensions are based around the lenght, width and heighth of an object, then if you think about it, where is time? Well, the 4th dimension is the length IN time. As for the 5th dimension, in 1993 the physicist gerardus-t-hooftput forward the holographic-principle, which explains that the information about an extra dimension is visible as a curvature in a spacetime with one fewer dimensions. For example, holograms are three-dimensional pictures placed on a two-dimensional surface, which gives the image a curvature when the observer moves. Similarly, in general relativity, the fourth dimension is manifested in observable three dimensions as the curvature of path of a moving infinitesimal (test) particle. Hooft has speculated that the fifth dimension is really the spacetime fabric.
An underline on a dimension means that it is not to scale.
In 1908, Hermann Minkowski presented a paper consolidating the role of time as the fourth dimension of spacetime, the basis for Einstein's theories of special and general relativity.