2. Please solve with detailed solutions. Thank You! 2. The block shown is acted upon by its weight, W = 200lbs, ahorizontal force, Q = 600lbs, and the pressure, P, exerted bythe inclined plane. The resultant R of these forces is up andW = 200lbsparallel to the incline, thereby sliding the block up it.Determine: a) P & b) R (indicate the location of R in thefigure). Hint: Take one axis parallel to the incline.Q = 600lbs15°30°

2. The block shown is acted upon by its weight, W = 20olbs, a horizontal force, Q = 600lbs, and the pressure, P, exerted by the inclined plane. The resultant R of these forces is up and parallel to the incline, thereby sliding the block up it. Determine: a) P & b) R (indicate the location of R in the W = 200lbs Q = 600lbs figure). Hint: Take one axis parallel to the incline. 15° 30°

2. The block shown is acted upon by its weight, W = 20olbs, a horizontal force, Q = 600lbs, and the pressure, P, exerted by the inclined plane. The resultant R of these forces is up and parallel to the incline, thereby sliding the block up it. Determine: a) P & b) R (indicate the location of R in the W = 200lbs Q = 600lbs figure). Hint: Take one axis parallel to the incline. 15° 30°

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter8: Centroids And Distributed Loads

Section: Chapter Questions

Problem 8.112P: The inside surface of each thin shell carries a uniform normal pressure of intensity p0. Compute R,...

See similar textbooks

Similar questions

Find the internal force systems acting on sections 1 and 2.
Calculate the magnitude of the resultant forceacting on the Tainter gate ABC as shown. The gateis 3 m wide. (b) Determine the line of action of theresultant force.R = _______________ kN Line of action = _______________ m from point “O”
Cords are looped around a small spacer separating two cylinder each weighing 400kn and pass over a frictionless pulleys to weights of 200KN and 400kn. Determine the angle and the pressure N between the cylinder and smooth horizontal surface
The block in the figure has a weight of 400 lb and an applied force of 600 lb to the right. There is also a pressure P exerted by the incline plane. If the direction of the resultant, R, is parallel to the incline, determine the magnitudes P and R.
Hows Resultant, moment, Equilibrium . Find the ventical componcut For the system shown in Rig.t AF (Fig.l) Fメ-86N find the moment of force(looN) a bout pernt (A) and (B) as shown in fiq, 2. Br. 10ON 3m ODe termine the magnitude and divection of force (f) fon the equilibnium system shown I'n fig.3. 200N 49 500N 60 10
The spring clamp of Fig. block Fagainst the floor. The force in the spring is F = k(e – lo), where e is the present length of the spring, lo = 3 in. is the unstretched length of the spring, and k = 240 lb/ft is the spring constant. Determine all forces acting on mem- ber ÁBC of the spring clamp and the force exerted by the spring clamp on the block E. is used to hold the 8 in. D E 8 in. 6 in -6 in.- 6 in.
(Q3] (a) The wooden rod AB supports the roof ADC. If the mass of roof is 70 Kg and its weight acting at mid of roof. Find the force that AB is supporting the roof. 36 in. 48 in 6 in. 90 in 66 in. 5 in.
Question-3 A gate having the triangular shape shown in the figure below is located in the vertical side of an open tank. The gate is hinged about the horizontal axis AB. The force of the water on the gate creates a moment with respect to the axis AB. Determine the magnitude of this moment. Vertical wll Water Gate -6m
find the horizontal and vertical forces acting on the block in terms of Q
The two forces act on a bolt at A. Determine theirresultant.(graphical solution)
13 см Vaxn's 29cm 26cm !- Stancs X ax. 5. Find The location of conter of gravity
Q3) The gusset plate is subjected to the forces of four members. The forces are concurrent at point 0. If the force in member C is (F =12 kN) determine the force (T) in member B and its proper orientation 0 for equilibrium. SKN 5kN