8 and 1/3 feet of rope = 100 inches.
30 percent of the rope = 30 inches.
56 cents
23.2 ft.
rope, chain, ect
Assuming the 15 feet is the diameter of the circle. Formula to find the circumference of the circle is pi x diameter. 15 × 3.14 = 47.1 feet So the rope will be 47.1 feet long.
0.6 feet
30 inches or 2 feet and 6 inches
Depends on the lenght. Jump ropes can be long or short.
Water can wick up a rope for a few inches to a few feet, depending on the material and thickness of the rope.
56 cents
609.52
8 x 12 x 2 = 192 wraps of a half inch rope around an eight foot pole.Each wrap requires 15 inches of rope.192 x 15 in = 2,880 inches / 12 inches per foot = 240 feet (give or take a little)
Well, honey, a foot and a half is 18 inches long. So, that rope would be 18 inches. Math doesn't have to be complicated, darling.
To express the information about the number of feet Marcus cut off the rope mathematically, you could use the equation ( R - n = L ), where ( R ) represents the initial length of the rope, ( n ) is the number of feet Marcus cut off, and ( L ) is the remaining length of the rope. This equation illustrates the relationship between the initial length, the amount cut, and what remains.
To determine the total length of rope used to put up tents, we need the length of rope required for one tent. If we denote the length of rope for one tent as ( L ) feet, then for 60 times the number of tents, the total length of rope would be ( 60 \times L ) feet. Without the specific value of ( L ), we cannot calculate a numeric answer, but the formula remains ( 60L ) feet.
Inches would be better, because some people have very specific preferences as to the length of the jumprope. They may really prefer a 55" jumprope over a 60" rope, but you would label these both as 5 foot ropes.
Multiply by 36.
that would be 27 feet of rope