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In order to find their ratio, we need to know the two lengths.
if the two lengths are not touching, carefully move one of them until they are. measure the length between the outside ends of the two lengths. this makes a triangle. An angle can be calculated by using trigonometry functions on two of the lengths of a triangle. these can be simple or rather complex
No, the length of the midsegment of a trapezoid is equal to the average of the lengths of the bases. The sum of the lengths of the bases would typically yield a longer length than the midsegment.
There's not necessarily any difference in the lengths. But even if the lengths are the same, they'll be described with different numbers, because the length of the unit used to count the length is different in the two systems.
If the bar is a three dimensional object it will have some thickness. Then, assuming it is oblong in shape and knowing its length, width and thickness: Surface_area = 2 x (length x width + width x thickness + thickness x length)
it depends on the fillet welds dimentions and fit up requirements
A point has no length, width, or thickness. A line has infinite length but no width or thickness. A plane has infinite length and width but no thickness.
The span is the distance between supports. The sum of the span lengths is the bridge length.
Length IS a dimension (in space). It has no thickness.
As volume is length x length x length, cube the ratio of the lengths, thus: Ratio of lengths = 2 : 5 ⇒ Ratio of volumes = 23 : 53 = 8 : 125
Well the fractional lengths is the length of a fraction
A steel sword typically weighs between 2 to 5 pounds, depending on its design, length, and thickness.
An M8 screw typically varies in length based on the specific application or design. Common lengths range from 12 mm to 100 mm, but custom lengths are also available.
There is no relationship between units of mass and either length of capacity. Units of capacity are the cubed units of length.
The hollow block sizes in the Philippines are the following:40cm (length) X 20 cm (width) X 4 in (thickness)40cm (length) X 20 cm (width) X 5 in (thickness)40cm (length) X 20 cm (width) X 6 in (thickness)
Increasing the thickness of the lens generally decreases the focal length, while decreasing the thickness increases the focal length. This is due to the way light rays bend and converge or diverge as they pass through different thicknesses of the lens. The relationship between lens thickness and focal length is determined by the lens's refractive index and curvature.
Time has no length, width or thickness.