The straightforward answer would appear to be eight, using separate toothpicks to form each letter.
(Use 3 in the F, 3 in the A, and 2 in the T.)
However, if you can use the same toothpicks for all three letters at the same time, you only need three. (see related link)
Using 3 Toothpicks
By overlapping the three toothpicks at the proper angles, you can simultaneously form an F, an A, and a T. Place the toothpicks atop each other to form a small triangle in the middle. You will see the letters F, A, and T within the angles formed. The horizontals of the F are, however, oddly splayed and not parallel.
(see related link)
it is eight thoothpicks
About nine.
You need 8 toothpicks to spell the word HAT by using one toothpick for each letter and five toothpicks to form the 'A' by overlapping two toothpicks for each leg.
It would require 5 toothpicks to spell the word "hat." The letter "h" would use 2 toothpicks, the letter "a" would use 2 toothpicks, and the letter "t" would use 1 toothpick.
I think seven. F = 3 I = 1 N = 3 therefore it equals seven.
8 is it really that hard?F A T3 3 2
8 c-3, a-3,t-2
It depends on the cable. 0 to 5000 volts the minimum bending radius is 6 x diameter of the cable. Above 5000 volts the minimum bending radius is 8 x the diameter of the cable.
Unlike an optical lens, maximum 'bending' occurs closest to, and minimum 'bending' furthest from, the center of a gravitational lens.
The formula to calculate the minimum bending radius for steel is: Minimum Bending Radius = (T * Width) / (2 * K), where T is the thickness of the steel, Width is the overall width of the bend, and K is a factor based on the steel's tensile strength and type of steel.
I believe you want to know the MINIMUM bending radius of sheet metal. The maximum bend would be 180 degrees.
Minimum Necessary Standard