Two line segments AB and CD are taken. Initially, the points A & C and B & D are coincident. The line segment CD is rotated about point D such that CD coincides with AB again, when it covers a distance of x. If the distance covered by C is y, the angle subtended by CD with respect to starting point is θ, then find the relation among x,y and θ. Assume that θ is in degrees.
y = (x × θ)/360
We can see that if CD traverses the circumference of the circle, when it covers a distance x and the angular displacement will be 360∘
(One full revolution is 360∘ ) For an angular displacement of θ¸ the distance covered by CD is y.
Hence, x is proportional to 360∘ and y to θ degrees. Thus x360 = yθ¸
So, y = (x×θ)360