Knowing P = 56 kN and Q = 10 kN, determine the magnitude of the x-component...
Knowing that the magnitude of the horizontal force P is 10 kN, determine the stresses at points A and B 30 mm A B 24 mm D P 45 mm 15 mm
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
Q = 170 kN F = 80kN The x component of the reaction at E,Ex (in kN) The y component of the reaction at E, Ey (in kN) The y component of the reaction at A, Ay (in kN) The force in member ED (in kN) The force in member IB (in kN) The force in member IH (in kN) Question 2 W = 115 lb P = 80 lb The x component of the reaction at H,Hx (in lbs)...
Determine the x and y of the forces 1. Resultants of force systems (10 pts) Determine the x and y components of the three forces F1, F2 and F3. Also, determine the magnitude and direction of the resultant force. Solve the problem by filling the table below. Indicate force direction with positive/negative sign. Fz=100 N F=100N N x component (N) y component (N) 45° ST F3=200 N Resultant force
If F3= 12 KN, O=45, $=45°, determine the magnitude and coordinate direction angles of the resultant force acting on the ball-and-socket joint. F2 = 8 kN Fi = 10 kN
Determine the magnitude of internal force BD (in kN) when Q is 30 kN. Identify the member is in Tension with a POSITIVE value in your submission Identify the member is in Compression with a NEGATIVE value in your submissiorn 0 i m.
THIS ASSIGNMENT CONTRIBUTES TO YOUR COURSE MARK. Given the forces P = 2.4 kN and Q = 4.6 kN and the height L = 12 m: THIS ASSIGNMENT CONTRIBUTES TO YOUR COURSE MARK Q KN L m P kN P kN Given the forces P = 2.4 kN and Q = 4.6 kN and the height L = 12 m: 4 m 8 m 8 m 4 m How many zero force members are in this truss? Determine the forces...
Knowing that Pis 24 kN, applied to both sides of the bar at Band Q is 45 kN, applied to the bar at Cas shown. What is the internal normal force acting on a vertical cross-section passing through the bar between points A and B? Express your answer in Newtons (not kN), to the nearest whole Newton, taking tension as positive and compression as negative. B4 - 400 mm — -600 mm
If FB = 3 kN and θ = 45°, determine the magnitude of the resultant force of the two tugboats and its direction measured clockwise form the positive x axis.
Two forces P and Q are applied to the lid of a storage bin as shown. Knowing that P = 48 N and Q = 60 N, determine by trigonometry the magnitude and direction of the resultant of the two forces.