A rope is connected between two point A and B,120cm apart at the same level ,a load of 200N is suspended from a point C on the rope 45cm from A.fid the load that should be suspended from the load D 30cm from B which will keep the rope CD horizontal
Answers
Answer:
Explanation:
The rope has load weight 200 N at point C, 45 cm horizontally from A toward B, and h cm beneath the AB line.
Unknown load weight F is at point D, 30 cm horizontally from B toward A, and h cm beneath the AB line, so that line segment CD is parallel to AB and h cm beneath it.
Obviously, the rope from A to C to D to B is longer than the direct AB line (120 cm). The rope length does not matter because it does not affect the horizontal portions of distances, such that ((AC)^2-h^2) + CD + ((DB)-h^2) = 120 cm.
The right triangle of distances formed by hypotenuse AC, horizontal side 45 cm and vertical side h determines a similar triangle of forces at point C: hypotenuse equal to tension from C to A, horizontal component opposing tension T from C to D, and vertical component opposing weight 200 N.
The ratios of the distance and force triangles’ orthogonal sides around point C are equal because the triangles are similar:
45/h = T/200
hT = 45*200 [1]
The same kind of relationship exists for distance and force triangles around point D, with two identical values: the vertical distance h and the horizontal tension T from D to C:
30/h = T/F
hT = 30F [2]
Combine [1] and [2] to eliminate left sides:
45*200 = 30F
F = 45*200/30 = 300
The load weight at point D is 300 N.
h/45 = 200/T com a horizontal tension T between C and D, a vertical load
The reason for describing distances as frsction of ropTo maintain points C and D at same level,