ANSWER ALL FOR UPVOTE. INCOMPLETE WORK NO UPVOTE. THANK YOU The system in the figure is in equilibrium. A concrete block of mass 265 kg hangs from the end of the uniform strut of mass 68.0 kg. Forangles = 26.8° and 0 = 66.3°, find (a) the tension T in the cable and the (b) horizontal and (c) vertical components of the force on thestrut from the hinge.(a) Number(b) Number(c) NumberiStrutA-HingeUnitsUnitsUnits<

Given-To Find-(i) Tension in the cable(ii) horizontal component of Force on strut from hing(Iii)…

The system in the figure is in equilibrium. A concrete block of mass 265 kg hangs from the end of the uniform strut of mass 68.0 kg. angles - 26.8° and 9 - 66.3°, find (a) the tension T in the cable and the (b) horizontal and (c) vertical components of the force on the strut from the hinge. لدا Number Strut z -Hinge Inite

The system in the figure is in equilibrium. A concrete block of mass 265 kg hangs from the end of the uniform strut of mass 68.0 kg. angles - 26.8° and 9 - 66.3°, find (a) the tension T in the cable and the (b) horizontal and (c) vertical components of the force on the strut from the hinge. لدا Number Strut z -Hinge Inite

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

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter5: Three-dimensional Equilibrium

Section: Chapter Questions

Problem 5.42P: The 350-lb homogeneous plate has the shape of an isosceles triangle. The plate is supported by a...

See similar textbooks

Similar questions

The figure shows a three-pin arch. Determine the horizontal component of the pin reaction at A caused by the applied force P.
Q1/ In the equilibrium position shown in figure below, the uniform bar (AB) has a mass of (50 kg) and supports load (200 kg) at (A). Determine the tension (T) in the cable and reaction ?force at (B) 2-5m 2.5m 200 kg T= 7646 N, FBx= 2000 N, and FBy = %3D 3299 N T= 6511 N, FBx = 3823 N, and FBy = %3D %3D %3D 8992 N T = 7646 N, FBx = 3823 N, and FBy = %3D 4169 N Non of the above O
4.00 kg block is attachedto a vertical rod by meansof two strings. When the systemrotates about the axis of the rod,the strings are extended as shownin Fig. and the tensionin the upper string is 80.0 N. (a)What is the tension in the lowercord? (b) How many revolutionsper minute does the system make?(c) Find the number of revolutionsper minute at which the lowercord just goes slack. (d) Explainwhat happens if the number ofrevolutions per minute is less thanthat in part (c).
The truss shown is used to support a 11 kg block with a pin at A and a roller at E. Given a = 1.1 m, b = 0.7 m, c = 1.2 m and d = 1.2 m find the Internal forces in members AB, BD, BC and Co. b d A E The force in member AB Is The force In member BC Is The force In member BD Is The force In member CD Is B D C N In (Click to select) (Click to select) N In N In (Click to select) IN In (Click to select) (Click to select) tension compression V V
The cylinder C in the figure below weighs 1000lbs. Determine the tension in the cable , and the reactions A and F
4. The mobile shown in the figure below hangs at equilibrium. It consists of objects held by vertical strings. Object 3 weighs 1.40 N, while each of the identical uniform horizontal bars wieghs 0.50 N. Find (a) the weights of objects 1 and 2, and (b) the tension in the upper string. ononoo mi nddliops q uode dsi upiol 1ol no COF nia)(M bns H boz/3 L3 boriupor L/2 L/2 noe1og 0008 adgis 1eris 2 d bns Inol noowiod eib pob so1ot dbum woltalosano
The truss shown is used to support a 11 kg block with a pin at A and a roller at E. Given a = 1.1 m, b=0.7 m, c=1.3 m and d = 1.3 m find the internal forces in members AB, BD, BC and Co. b A E a The force in member AB is The force in member BC is The force in member BD is The force in member CD is B D C N in (Click to select) N in (Click to select) N in (Click to select) N in (Cack to select)
Q1/ In the equilibrium position shown in figure below, the uniform bar (AB) has a mass of (50 kg) and supports load (200 kg) at (A). Determine the tension (T) in the cable and reaction force at (B)? Bi 2.5m 2.5m A 200 Kg 2.5 m
The wheels, axle, and handles of a wheelbarrow weigh W = 55 N. The load chamber and its contents weigh WL = 623 N. The drawing shows these two forces in two different wheelbarrow designs. To support the wheelbarrow in equilibrium, the man’s hands apply a force to the handles that is directed vertically upward. Consider a rotational axis at the point where the tire contacts the ground, directed perpendicular to the plane of the paper. Find the magnitude of the man’s force for both designs.
Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. A 7-ft boom is held by a ball and socket at A and by two cables EBF and DC, cable EBF passes around a frictionless pulley at B. Consider the force P= 390 lb. 6 ft A B 3 ft -3 ft 4 ft 4 ft Determine the tension in each cable. The tension in cable EBFİS Ib. The tension in cable DC is Ib.
The rigid body is supported by a hinge at A and a cable at C. The hinge resists 5.5m translation in all three coordinate directions and rotation in the x and y directions. The 260 N force is in the -x direction and acts at the center of the 3m body. Find the tension in the cable and the components of the support C 2.5m 260N reactions at A. Your answer should include a properly Ilm annotated FBD. B 3.Im
The system in the Figure is in equilibrium. A mass M1 = 246.0 kg hangs from the end of a uniform strut which is held at an angle theta = 40.0o with respect to the horizontal. The cable supporting the strut is at angle alpha = 24.4o with respect to the horizontal. The strut has a mass of 58.2 kg. Find the magnitude of the tension T in the cable. Find the magnitude of the horizontal component of the force exerted on the strut by the hinge? Find the magnitude of the vertical component of the force exerted on the strut by the hinge?