Ropes are making angles of 300 and 600 with the horizontal, and force is being applied suppose vertically downward as it is not mentioned in the question.
Two ropes A and B are attached to a bar making an angle 600 and 300...
1. Two ropes A and B are attached to a bar making an angle 60° and 30 to the horizontal. A force of 500.0 N is applied at the junction point. Draw a sketch and free body diagram and find the tension in ropes.
Two dogs pull horizontally on ropes attached to a post; the angle between the ropes is 60.0 degree. If dog A exerts a force of 270 N and dog B exert a force of 300 N, find the magnitude of the resultant force and the angle it makes with dog A's rope.
Two dogs pull horizontally on ropes attached to a post; the angle between the ropes is 52.0 ∘. Dog A exerts a force of 258 N , and dog B exerts a force of 296 N . a. Find the magnitude of the resultant force. b. Find the angle the resultant force makes with the rope of dog A.
Two dogs pull horizontally on ropes attached to a post; the angle between the ropes is 63.0 ∘. Dog A exerts a force of 290 N , and dog B exerts a force of 348 N . Find the magnitude of the resultant force. Find the angle the resultant force makes with the rope of dog A.
Two dogs pull horizontally on ropes attached to a post; the angle between the ropes is 54.0 ∘. Dog A exerts a force of 252 N and dog B exerts a force of 316 N . Find the magnitude of the resultant force. Find the angle the resultant force makes with dog A's rope.
Two dogs pull horizontally on ropes attached to a post; the angle between the ropes is 59.0 ?. Dog A exerts a force of 290 N , and dog B exerts a force of 320 N .
Two dogs pull horizontally on ropes attached to a post; the angle between the ropes is 63.0 ∘. Dog A exerts a force of 256 N , and dog B exerts a force of 334 N. a.Find the magnitude of the resultant force. b.Find the angle the resultant force makes with the rope of dog A.
. Three ropes are attached to a very light ring. See the diagram below. The view in the diagram is looking down on the system. Two ropes are anchored to walls at right angles. The third rope pulls as shown. The system is in static equilibrium. a. Draw a free body diagram of the ring, including a coordinate system. b. What is the magnitude of the tension in Rope 1? T1 = c. What is the magnitude of the tension...
3. A coffee-shop sign is hung from two ropes, each making an angle of 30° with the horizontal (see diagram). The mass of the sign is 12 kg. What is the tension in the left rope?
A ball of mass 4.4 kg is attached to a pole by two ropes: a horizontal rope under tension T1, and a rope under tension T2 which makes an angle 0 = 44.6 degrees with the vertical as shown in the diagram. The ball moves in a horizontal circle of radius L = 1.9 at constant speed of V| = 19.2 m What is the tension T? Answer in Newtons (N).