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The cable pulls on the eyebolt with a tensile force of 120 N, and e 30°....
Force Vectors If the resultant force acting on the eyebolt is 1600 N and its direction measured clockwise from the positive x-axis is 30°, determine force (F1) & angle (φ) for the shown figure.
The plate is supported by the roller support A, theball-and-socket joint D, and the cable BC. Suppose that F1 = 950 N and F2 = 580 N. A.) Determine the z component of reaction force at A using scalar notation. B.) Determine the x, y, and z components of reaction force at D using scalar notation. C.) Determine the tension in cable BC .
Help please Knowing that the tension in cable AB is 1425 N, determine the components of the force exerted on the plate at B. 360 mm 920 mm 600 mm D A force acts at the origin of a coordinate system in a direction defined by the angles a-70.go and θ'-144.ge, Knowing that the z component of the force is -52.0 lb, determine (a) the angle 8,, (b) the other components and the magnitude of the force. 82
Often a vector is specified by a magnitude and a direction; for example, a rope with tension T⃗ exerts a force of magnitude T=20N in a direction θ=35∘north of east. This is a good way to think of vectors; however, to calculate results with vectors, it is best to select a coordinate system and manipulate the components of the vectors in that coordinate system. Find the components of the vector B⃗ with length b = 1.00 and angle β=10.0 ∘...
2.87 Problems55 the magnitsde and direction of the force F 2.81 A force acts at the origin of a coordinate system in a direction l by the angles 869.3 and e 57.9. Knowing that the y compo- nent of the force is -174.0 lb, determine (a) the angle ,, (b) the o components and the magnitude of the foree. 2.82 A force acts at the origin of a coordinate system in a direction defined by the angles &-70.9 and &-144.9....
Please solve all the questions. 120 N Question No. 1: A 120-N force is applied to the control rod AB as shown. Knowing that the length of the rod is 0.6 m: 1. Determine the moment of the force about point B by resolving the force into: a. components along AB and in a direction perpendicular to AB. b. horizontal and vertical components. 2. Determine the horizontal force at A which creates the same moment. Question No. 2: Knowing that...
Determine : A.The magnitude of the tension T in the cable .Units :N B.The horizontal component of the reaction force at the hinge of the bridge .Units :N C.The vertical component of the reaction force at the hinge of the bridge .Units :N D. How much force does a child have to apply to keep a beach ball of 23 cm radius submerged below surface of a swimming pool ?? Course search A cement mixer drives onto a drawbridge just...
HW2 Trigonometry & Vectors tem 5 Item 5 Often a vector is specified by a magnitude and a direction; for example, a rope with tension T exerts a force of magnitude T 20N in a direction 6 35 north of east. This is a good way to think of vectors; however, to calculate results with vectors, it is best to select a coordinate system and manipulate the components of the vectors in that coordinate system Figure 1 of 1 gth....
please help! I need help finding and solving equations of equilibrium to find the max tension in the cables and the angle that results in the maximum tension, I also have pictures below of the work I have so far all I really need is equations for the 4 cable part and that's it but I put the whole assignment so you could see thanks! Tower Support System Challenge Challenge Scenario: Due to weather conditions, a major communication tower n...
Three-dimensional Force Systems 3 ore To use the conditions of equilibrium to solve for unknown forces in a three-dimensional force system For particle equilibrium, the sum of all forces must be zero F. 0 If the forces are resolved into the land k components the condition for equilibrium becomes F.i+ J+Fk0 which results in the following three scalar component equations that can be used to solve for unknowns: F = 0 F. 0 SF-0 F = 0 and the equations...