Find the resultant of the parallel force system shown below. Reference the resultant from point B.
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Find the resultant of the parallel force system shown below. Reference the resultant from point B.
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- For the left figure below, replace the distributed loads by an equivalent resultant force and a couple moment acting at point A. (See the right figure below.) Let a = 4.00 m, w₁=5.00 kN/m, and ₂ = 4.55 kN/m. Calculate the resultant force, FR. and the couple moment, MR,A. Don't forget to include the appropriate signs (consistent with the right figure) with your numerical answers. Express your answers numerically in kilonewtons and kilonewton-meters to three significant figures separated by a comma. View Available Hint(s) FR, MR,A= IVD| ΑΣΦ | vec ? B kN, kN.m MRAThe 30-kg homogeneous smooth sphere rests on the two inclines as shown. Determine the contact forces at A and B. WRITE YOUR ANSWER IN TWO DECIMAL PLACES. 65° 45° Contact force at A (in kg): Contact force at B (in kg):None
- Problem 1c.2 The rigid beam is supported by a fixed support at. The cable at forms an angle from horizontal, travels over the frictionless pulley at, and supports the counterweight, as shown. There is a vertical load applied at and a concentrated couple-moment acting at. The load at is perpendicular to the beam. In this case, the weight of the beam itself can be considered negligible compared to the other forces. Determine the support reactions provided by the fixed support for: (a) W = 500 N (b) W = 5 KN Answers: (a) For Mc L/2 X L Po Diagram is not to scale. PB B HDetermine the magnitude and location of the resultant of the force system acting on the beam shown below. Use point O as the reference point. Neglect the weight of the beam.