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By standard practice, the normal distribution curve should be normalized so that the area under the curve is 1. This results in a height, at the mean, of about 0.4, i.e. the probability of a sample value being equal to the mean is 40 percent. The width of the normal distribution curve is infinite, as the tails are asymptotic to the X axis. It is easier to understand that the +/- one sigma area is 68.2 percent, the +/- two sigma area is 95.4 percent, and the +/- three sigma area is 99.6 percent.
No. A square on its side will have a width equal to its side length. On its vertex, its width will be larger: up to sqrt(2) times as large.
The factor pairs are the length and width of the rectangles.
That would depend on the length of the rectangle which has not been given but the area of a rectangle is length times width
The width of a polygon will depend on its shape. For a polygon, in general, it is the length of the largest diagonal. However, for rectangles of squares it often refers to its smaller sides.
By standard practice, the normal distribution curve should be normalized so that the area under the curve is 1. This results in a height, at the mean, of about 0.4, i.e. the probability of a sample value being equal to the mean is 40 percent. The width of the normal distribution curve is infinite, as the tails are asymptotic to the X axis. It is easier to understand that the +/- one sigma area is 68.2 percent, the +/- two sigma area is 95.4 percent, and the +/- three sigma area is 99.6 percent.
Yes. By definition. A normal distribution has a bell-shaped density curve described by its mean and standard deviation. The density curve is symmetrical(i.e., an exact reflection of form on opposite sides of a dividing line), and centered about (divided by) its mean, with its spread (width) determined by its standard deviation. Additionally, the mean, median, and mode of the distribution are equal and located at the peak (i.e., height of the curve).
As with other types of materials, measures of strength depend on cross sectional area. Assuming a fairly uniform thickness, then width of a strip becomes the dominant factor.
Yes its diameter is its width which is constant where ever it's measured inside the circle
No. A square on its side will have a width equal to its side length. On its vertex, its width will be larger: up to sqrt(2) times as large.
no
It is the length and width of your HAND
The factor pairs are the length and width of the rectangles.
Bow or crown. Bow is probably used more often when the board bends in the width. Crown can be across the width of the board or in the length. A board will often curve with the grain, following the curve of the tree rings.
The answer will depend on what characteristic of the thumb you wish to measure: length, width, mass, volume, resistance to pressure, etc.The answer will depend on what characteristic of the thumb you wish to measure: length, width, mass, volume, resistance to pressure, etc.The answer will depend on what characteristic of the thumb you wish to measure: length, width, mass, volume, resistance to pressure, etc.The answer will depend on what characteristic of the thumb you wish to measure: length, width, mass, volume, resistance to pressure, etc.
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