That simply means that you can have three straight lines, such that each of them is at right angles to all the others.You can choose one that goes from north to south, one that goes from east to west, and one that goes from up to down. Or any other three lines at right angles to one another - for example, another option is 1) north-east to south-west; 2) north-west to south-east; 3) up to down.
In physics, there are four known dimensions: the three spatial dimensions (length, width, height) and the fourth dimension of time. Some theoretical models propose additional dimensions, such as in string theory, where there could be up to 10 or 11 dimensions.
Oh, that’s a happy little question! Space can be thought of as having three dimensions – length, width, and height – just like a three-dimensional painting or sculpture. It’s like a fantastic world where we can explore and create beautiful things in all directions; so many possibilities exist in the vastness of space. Just remember to let your imagination roam free and enjoy the beauty of the universe around us. Great question!
the dimensions of the first space shuttle were what ever the dimensions of them are how every were made so if you have a problem with it deal with it
The concept of a ninth dimension in space is not currently accepted in mainstream physics. According to the widely accepted model of the universe, there are only three dimensions of space (length, width, height) and one dimension of time (often referred to as spacetime). The idea of additional dimensions beyond these four is primarily theoretical and part of certain speculative theories such as string theory.
Space is three dimensional, the three dimensions being length, width, and height. It is possible therefore to describe a motion in space in terms of a three dimensional coordinate system. However, motion also involves time, so you might want to consider a four dimensional system. That enables you to determine not only where something went, but also when, and how rapidly it went there.
It is a geometric model of the physical universe . The three dimensions are length, width, and depth or height
Time is one dimension, not four. If you combine it with space, you can "visualize" it as four dimensions: three dimensions of space, one of time. Sort of visualize it - we can't really visualize four dimensions.
Space is the enormous volume in which matter and energy are located and through which motion takes place. Space is observed to have three dimensions, which are length, width, and depth (or height). It is hypothesized that there may be more dimensions than the three that we observe in our daily lives. String theory gives space ten dimensions and M-theory gives it as many as eleven dimensions including that of time.
There are (so far) three dimensions of space, and one dimension of time.
Length Width Height
A cube has three dimensions: length, width, and height. These dimensions define its shape and volume in three-dimensional space. Each face of the cube is a square, and there are a total of six faces.
The four dimensions of Space Time are one real dimension r=ct and three vector dimensions Ix + Jy + Kz. All the dimensions have units of meters. The idea of a dimension of time is an historical artifact.
I assume you mean, "what quantity describes the how much something is extended in three-dimensional space?", in which case the answer is volume.
In any of the three spacial dimensions or a combination of same
Space has 3 million dimensions
Physical objects can only be measured in three dimensions: length, width, and height. These dimensions define the size and shape of objects in space. Any additional dimensions would require advanced mathematical concepts like those found in string theory.
In plane forces, all forces are confined to a two-dimensional plane, while in space forces, forces can act in three dimensions. Plane forces involve only forces in the x and y axes, while space forces can include forces in the z axis as well. Space forces require vector analysis in three dimensions, while plane forces use scalar analysis in two dimensions.