When the weight of block B to maintain equilibrium is maximum, the tensile forces in the four segments of the cord are &
Posted: Wed Jun 08, 2022 8:15 am
When the weight of block B to maintain equilibrium is maximum,
the tensile forces in the four segments of the cord are
ð1, ð2, ð3 ððð ð4,
as indicated in the figure. Determine the values of these four
tensile forces, in N, and the mass of block B, in kg. Use ð = 9.81
ð/ð 2. Draw all necessary free-body diagrams and indicate
the direction of impending motion. Also, show the diagrams in
finding the angle of wrap, ð― for each pulley.
a = 30° Y = 20° 0 = 60° P = 70 + WA = 100 + (BOD) 100 CDE 100 Ups 4 ro Bere as ifere your own. ΞB 0 HA = HB = 0.22 "c= 0.11 "D= 0.05 N N WIL HC" 3 P = 70 + = 100 + WA 2) Ξc 234 100. (345 100. ι 1 = 72.34 N = 103.45 N 12 cm cm Our ΞA Ano R 10 cm nore ------ P ////
the tensile forces in the four segments of the cord are
ð1, ð2, ð3 ððð ð4,
as indicated in the figure. Determine the values of these four
tensile forces, in N, and the mass of block B, in kg. Use ð = 9.81
ð/ð 2. Draw all necessary free-body diagrams and indicate
the direction of impending motion. Also, show the diagrams in
finding the angle of wrap, ð― for each pulley.
- When The Weight Of Block B To Maintain Equilibrium Is Maximum The Tensile Forces In The Four Segments Of The Cord Are T 1 (147.14 KiB) Viewed 23 times