The turnbuckle is tightened until the tension in the cable AB equals 2.4kN. Determine the vector expression for the tension T as a force acting on point "A"to"B". Also find the magnitude of moment point "O" from force "T".
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
Chapter 2, Problem 2/094 The turnbuckle is tightened until the tension in the cable AB equals 2.7 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.
The turnbuckle is tightened until the tension in cable AB is 2.8 kN. Calculate the magnitude of the moment about point O of the force acting on point A. 2 2.1 m 3.3 m 2.3 m 0.8 m Answer: M kN m
The turnbuckle is tightened until the tension in cable AB is 9.9 kN. Determine the magnitude of the moment about point O of the cable force acting on point A to the nearest 0.01kN-m.
Question 3 A turnbuckle (Figure Q3) is tightened until the tension T in the cable AB is 2.4 kN. 2 m 0.8 m Figure Q3: Turnbuckle and cable. Write down the coordinates (in metres relative to the origin) of the points labelled O, A and B. (a) [2 Marks] (b) Express the tension T in terms of the Cartesian component vectors Lj and A 3 Marks] (c) Determine the moment Mo about the base O of the cable force acting...
The tension in cable AC is 400 N. Determine the magnitude of the moment about point D 7 m 2.7 m 6.7 m 8.5 m O Type here to search O Ri -
b Write an expression for the tension T in the horizontal cable AB 25% Part (c) Write an expression for the x-component Px of the force exerted by the pivot on the beam, in terms of T. 25% Part (d) What is the tension in the horizontal cable, in newtons, if the mass of the beam is 34 kg, the length of the beam is 11 m, and the angle is 28°? A uniform beam of length L and mass...
The required tension in cable AB is 1200 N. Determine (a) the vertical force P that must be applied to the pedal, (b) the corresponding reaction at C. 175 mm, 300 mm 125 mm
The inclined pole is subjected to a 5 kN magnitude force vector F acting from point B towards point C. (a) Determine the angle that exists between B (1,5,6) m the force vector F and the pole AB (b) Determine the magnitude of the component of the force vector F that acts parallel to the pole AB (c) Determine the magnitude of the component of the force vector that acts perpendicular to the pole AbB C (4, 3, 0) m...