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It is 1 : 1.
W/c .4/5
The ratio of width to length is 34, so W = 34*L The area of a rectangle is L * W, so using the ratio we get L * 34*L = 108 cm2 34*L2 = 108 L = SQRT (108/34) = 1.78 cm W = 60.6 cm
You measure the length, L, in some units (inches, centimetres, whatever), measure the width, W, in the same units and then calculate L/W.
Very interesting solution.Measure the Length, Width, and Height.Volume = L W HArea = 2LW + 2LH + 2WHRatio of (Area)/(Volume) = (2LW + 2LH + 2WH) / (L W H) = ( 2 / H ) + ( 2 / W ) + ( 2 / L )I never knew that ! It works for any rectangular box.-- Take the reciprocals of Length, Width, and Height.-- Sum the reciprocals.-- Double the sum is the ratio of the box's area to its volume.The minimum ratio .... i.e. the box that holds the most volume in the least cardboard ...is a cube, for which the ratio is '6'.
24.357 is twenty-four and three hundred fifty-seven thousandths.
It is w:9 or w/9
It is 1 : 1.
Water cement ratio is defined as the indicator of strength is the ratio of water used compared to the amount of cement.Lower the W/C ratio, higher will be the strength.A minimum of W/C ratio 0.3 should be adopted.
George W. Bush
final axle ratio 3.55
W. E. Howard has written: 'Fifty years' cricket reminiscences of a non-player'
G. W. Furness has written: 'The farmer's share'
The tile W is worth four points in Scrabble.
simply workabilty is the w/c ratio in concrete. more the w/c ratio higher the workability and vice versa. and it is true that excess amount of w/c ratio doesnt give proper strength. so workable concrete i.e, concrete with proper w/c is must for good strength. *note: not considering the mix of concrete.
around 54 or 54 dollars w/tax
W/c .4/5