For the given force F, determine the force in AB, AC and AD. F 2.5 kN...
The turnbuckle is tightened until the tension in the cable AB equals 2.5 kN. Determine the vector expression for the tension T as a force acting on member AD. Also find the magnitude of the projection of T along the line AC. 5.0 m \1.4 n 2.1 m、y 3.5 m Answers: k) KN TAC = KN
Problem#1 (7.5 points): Determine the force in the cables AD, AC and the elongation of the spring AB (k = 1.5 KN/m) necessary to support a mass of 40 kg as shown in the figure below. 60° 2 m 135 2 m 120 B k = 1.5 kN/my Problem#2 (7.5 points): Determine the force in the cables AD, AC, and AE necessary to support the structure shown in the figure below. FRE 9 m FAB = 3.5 kN 4.5 m...
# F = 590 N, determine the tension developed in cables AB, AC, and AD. (Figure 1) Part A Determine the tension developed in cable AB. Express your answer to three significant figures and include the appropriate units. ? FA Value Units Figure 1 of 1 Submit Request Answer D Part B 2 m Determine the tension developed in cable AC. Express your answer to three significant figures and include the appropriate unite. 1 m 30° 2 m B HA...
Determine the forces in each memebers, AB, AC=AD, BC=BD, and BE 2014 Part A Determine the force in member AB. and state the member is intension or compression. Take F-10 kN. Hint. The support reaction at member BBT Figure 1) acts on Express your answer using three significant figures and include the appropriate units. Assume pove negative scalars for members in compression r s for members in ein and D' HA Value Units Submit Part B Determine the forces in...
Determine the following: (A) The angle formed by cables AB and AD (B) The perpendicular distance from point B to the line AD (C) If the force in cable AC is 500N, find the component of that force in the direction of line AB If the force in cable AC is 500N, find the moment of this force about a line joining BD (D) What is the perpendicular distance from point B and cable AC? (E) 0.36 m 0.56 m...
6-B16 Using the Method of Sections, determine the force in HG, BC and GF. 2 kN 1.5 m D 0.8 m A o E F G H 1m 1.5 kN -1 m 2 m 2 m
Q1. A weight of W is supported by three cables AD, BD and DE as shown below. Cables AD and BD are attached to a vertical wall. Points A, B and C are on the y-z plane while Points C, D and E lie on the x-y plane. Line D-E and Line A-C-B are parallel to x-axis and z-axis, respectively. Given AC-CB and AB-AD-BD, W-10 kN and F -5 kN, determine the tension force in cables AD and BD. (7...
The helium balloon shown below is tethered by the ropes AB, AC and AD. The tension in rope AD is 990 N. a) Write unit vectors for the directions AB and AC. b) Express the force in rope AD as a Cartesian vector. The helium balloon shown below is tethered by the ropes AB, AC and AD. The tension in rope AD is 990 N. a) Write unit vectors for the directions AB and AC. b) Express the force in...
determine the moment of force f=[-1.5i + 2.25j -3.0k] kN about the longitudinal axis of the rod AC . Determine the moment of the force F [-1.5 2.25j -3.0k] kN about the longitudinal axis of the rod AC.
If, FA 30 kN and Fg = 45 kN determine the magnitude of the resultant force and specify the location of its point of apPplication (X, y) on the slab If. FA= 30 kN and FB = 45 kN determine the magnitude of the resultant force and specify the location of its point of application (x,y) on the slab 60 KN 120 KN 0.75 m FR125 m 2.5 m 0.75 m 50 KN EN 0.75 m 3 m 0.75 m