The rectangular components of a force are
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- Find the internal force systems acting on sections 1 and 2.arrow_forwardfind the resultant for forces. F=635 N, F2=468 N, F3=254 N F1 F2 F3 45°arrow_forwardQ4b. Force vectors F1 and F2 act on body Pwith the resultant force vector R. The resultant force R= 575 N and the angle between Rand the x-axis is of 320. If F1 = 275 N and the angle between F1 and the x-axis is 560, determine the angle between F2 and the x-axis. *Assume coplanar vector forces and give your answer in degrees to two decimal places. Body, P Answer: y F1 R F2arrow_forward
- Determine the magnitude and direction of the resultant of the concurrent forces described below. Draw the necessary figure. F1= 300 lb, up to the right, 45 degree with respect to positive x-axis F2= 400 lb, up to the left, 60 degree with respect to x-axis F3= 200 lb, down to the left, 30 degree with respect to x-axisarrow_forwardFind the rectangular representation of the force F, given that its magnitude is 320N.arrow_forwardthe x-component of the force isarrow_forward
- Pleasearrow_forwardFind the values for F; and 0 such that the resultant of the 3 forces acting on the bracket lies on the u axis and has a magnitude of 250 lbs. 45° 70° = 120 lbs F: = 40 Ibs CDarrow_forwardCalculate the magnitude and direction, measured counterclockwise from thepositive x axis, of the resultant force acting on the ring at O, if FA = 750 N andteta = 45°.arrow_forward
- For the distributed loading shown, find the equivalent resultant force and specify its location measured from point A, along AB, given: W1 = 260 lb/ft, W2 = 100 lb/ft, L1 = 9 ft, L2= 6 ft The magnitude of resultant force, FR is: (enter a positive number) FR = lbs The distance from point A in the positive X-direction is: d = ftarrow_forward2/32 The rectangular plate is made up of 1-ft squares as shown. A 30-lb force is applied at point A in the di- rection shown. Calculate the moment Mg of the force about point B by at least two different methods. 30 lb 1ft 1 ftarrow_forwardUsing the Component method, determine the magnitude and direction of the resultant and the equilibrant of the given forces. Force A = 316lb / 20° E of S Force B = 518lb / 15° N of E Force C = 111lb / W 05° Sarrow_forward
- International Edition---engineering Mechanics: St...Mechanical EngineeringISBN:9781305501607Author:Andrew Pytel And Jaan KiusalaasPublisher:CENGAGE L