yes!
Rotations?
To calculate the number of wheel rotations needed to travel a certain distance, we must first find the circumference of the wheel using the formula C = πd, where d is the diameter of the wheel. Given that the diameter is 0.5 meters, the circumference is C = π(0.5) = 1.57 meters. To travel 100 meters, the wheel would need to make 100 / 1.57 = approximately 63.69 rotations. Therefore, the wheel would need to make approximately 64 rotations to travel 100 meters.
circumference = diameter × π → diameter = circumference ÷ π Circumference of tyre = distance/rotations = 1320 ft / 180 = 7 1/3 ft → diameter = 7 1/3 ft ÷ π ≈ 2.33 ft
The circumference of the wheel is Pi multiplied by the diameter (0.705). Divide 1000 meters (1km) by that answer - and you'll have your solution !
11" Diameter x 3.145159 = 34.5575" Circumference 34.5575" Circum x 150 Revs = 5,183.6278" or 431.9689'
A rotation turns a shape through an angle at a fixed point thus changing its coordinates
Its very simple Single toe loop- 1 rotation Double toe loop- 2 rotations Triple toe loop- 3 rotations (and if its possible) Quadtriple toe loop- 4 rotationa
Cruyff and 360 step over.
it turns into a lollypop.
The common values needed to determine the travel distance of a thread are the thread pitch (distance between threads), the number of turns or rotations made by the thread, and the diameter of the thread spool. By knowing these values, you can calculate the total distance the thread travels when wound or unwound.
a helical spring has N turns of coil of diameter D, and a second spring made of same material and of same wire diameter has N/2 turns of coil of diameter 2D. if stiffness of first spring is k, then stiffness of second spring is