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Determine graphically the magnitude and direction of their resultant using a the parallelogram law, b the triangle rule. Knowing that the tension is lb in AB and 40 lb in AD, determine graphically the magnitude and direction of the resultant of the forces exerted by the stays at A using a the parallelogram law, b the triangle rule. Determine by trigonometry the magnitude and direction of the force P so that the resultant is a vertical force of N.
Determine by trigonometry a the magnitude and direction of the smallest force P for which the resultant R of the two forces applied at A is vertical, b the corresponding magnitude of R.
The smallest force P will be perpendicular to R. Knowing that P must have a lb vertical component, determine a the magnitude of the force P, b its horizontal component. Knowing that P must have a N horizontal component, determine a the magnitude of the force P, b its vertical component.
Knowing that P must have a N component perpendicular to the pole AC, determine a the magnitude of the force P, b its component along line AC. Knowing that P must have a N component perpendicular to member AB, determine a the magnitude of the force P, b its component along line AB. Components of the forces were determined in Problem 2. N y Comp. Force x Comp.
Determine the tension a in cable AC, b in cable BC. Knowing that the connection is in equilibrium, determine the magnitudes of the forces TC and TD. Knowing that the connection is in equilibrium, determine the magnitudes of the forces TB and TD. Determine the range of values of P for which both cables remain taut.
Determine the shortest chain sling ACB that can be used to lift the loaded bin if the tension in the chain is not to exceed 5 kN. Determine the magnitude and direction of the force P that must be exerted on the free end of the rope to maintain equilibrium. Hint: The tension in the rope is the same on each side of a simple pulley. This can be proved by the methods of Ch. Determine for each arrangement the tension in the rope.
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