The truss is subjected to a mass of 400 kg as shown in the following figure. The truss is supported by a pin at A and a roller at D. The reaction at roller D is equal to. 3 m -2 m A 1.5 m 0.5 m 0.5 m E F 1.5 m C 1.5 m 400 kg D

The truss is subjected to a mass of 400 kg as shown in the following figure. The truss is supported by a pin at A and a roller at D. The reaction at roller D is equal to. 3 m -2 m A 1.5 m 0.5 m 0.5 m E F 1.5 m C 1.5 m 400 kg D

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter5: Stresses In Beams (basic Topics)

Section: Chapter Questions

Problem 5.12.11P: A cylindrical brick chimney of height H weighs w = 825 lb/ft of height (see figure). The inner and...

See similar textbooks

Related questions

Q: The bent rod is supported by a thrust bearing at point A and a journal bearing at point D. The 100…

Q: Two cylinders having 75 kg and 20 kg mass are connected with a cable and held in equilibrium on…

Q: In the lattice system shown in the figure, select the distance a to be between 2 meters and 5 meters…

A: Let us assume the length "a" = 2 m And the force "P" = 20kN From the figure the angle between…

Q: The jib crane is pin connected at (A) and supported by a smooth collar at ( B ). determine the…

Q: A mass of 35 kg is suspended from a weightless bar AB which is supported by a cable CB and a pin at…

Q: Determine the reactions at A and B and the load Q required to hold bar AB in a horizontal position…

Q: Determine the horizontal and vertical components of reaction on the member at the pin A, and the…

A: Given data as per the question Force applied =600 N taking moment about…

Q: Determine the tensions T1 and T2 in the strings required to maintain equilibrium for the suspended…

Q: 12. 3 B. A. 6, 18 m

Q: The frame AB is supported by a pin at A and a pin at B. It is subjected to a concentrated force of P…

A: The free body diagram of the beam is as follows:

Q: The reactions at the rigid supports at A and B for the bar loaded as shown in the figure are…

A: Given : P = 10 KN To find : reactions at the rigid supports at A and B

Q: Calculate the horizontal reaction at the hinge support A of the equilibrium rigid body shown in the…

A: The free body diagram of the beam is a follows:

Q: The light boom AB is attached to a vertical wall by a ball and socket joint at A and supported by…

Q: A fixed crane, as given in figure, has a mass of 1000 kg and is used to lift a 2400-kg crate. It is…

A: Let reaction at A Horizontal Ax and vertical Ay Horizontal reaction at B=Bx sum of horizontal…

Q: 10 kN B 6 m 3 m 3 m A D 60 kN

Q: The frame AB is supported by a pin at A and a pin at B. It is subjected to a concentrated force of…

A: Draw the free body diagram of the frame AB.

Q: A force of 150 Ib acts on the end of the beam shown in Fig. 5-16a. Determine the magnitude and…

A: givenbeam rope system as shown below

Q: The light boom AB is attached to a vertical wall by a ball and socket joint at A and supported by…

Q: Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum.

Q: The vertical reaction in the hinged support shown in the figure is Blank 1 N. 200 N 200 N D E D 2 m…

Q: PH-2 The member shown in Fig. 3-11a is pin connected at A and rests against a smooth support at B.…

Q: ring 2020-2021.paf *5-88. Determine the horizontal and vertical components of reaction at the pin A…

A: We have to determine horizontal and vertical components of reaction pin A and the force in yhe cable…

Q: The truss is subjected to a mass of 400 kg as shown in the following figure. The truss is supported…

A: Given data The truss is subjected to a mass of 400 kg The truss is supported by a pin at A and a…

Q: The vertical reaction in the hinged support shown in the figure is Blank 1 N. 200 N 200 N B E 2 m 2…

Q: The jib crane is pin connected at ( A) and supported by a smooth collar at ( B ). determine the…

A: Given data Load = 25 kN

Q: Homework: The pin-connected structure of Figure below has the 2400 N.mm moment applied to member…

Q: The light boom AB is attached to a vertical wall by a ball and socket joint at A and supported by…

Q: Q) The member shown in Figure below is pin connected at A and rests against a smooth support at B.…

A: Take upward force as (+)ve and downward force as (-)ve. On the other hand, take the clockwise…

Q: 6-64 Bar AB of Fig. mass of 25 kg, and a length of 1 m. Determine the angle e for equilibrium. has a…

A: Draw the free-body diagram of the bar 'AB'. Where 'NA' and 'NB' are the reaction forces on the bar…

Q: The J-shaped member shown in the figure (Figure 1) is supported by a cable DE and a single journal…

Q: Ex. 3-2 Determine the tension in cable BC and BA necessary to Support the 60 kg cylinder shown in…

A: When a given system is in equilibrium, then the net external force acting on the system is equal to…

Q: Calculate the external reactions at hinge support A for the equilibrium rigid body shown in the…

Q: The truss is subjected to the system of forces as shown in the foitowing figure. The truss is…

Q: Situation 8- The beam is supported at A and supported by a cable at B as shown in Figure AP-4.20.…

A: Calculate the point load due to uniformly varying load as follows: 12×2 m×800 N/m=800 N The distance…

Q: Consider the bracket shown in Fig-3. If: • F1 - 10 lb @ -90° a = 2 ft • b = 4 ft C= 1 ft then, what…

A: F=10lb @-90 a=2ft b=4ft c=1ft To find The horizontal force direction @point A

Q: The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the…

A: Given: To find: Coordinates of D

Q: Q.2. The beam EF given in figure weighs 10 N/cm and carries the 138 N weight at its end. It is…

A: The free-body diagram of the beam EF is given as, The vector BA is written as, The unit vector in…

Q: 2 ft -2 ft 90. 65 200 lb 100 lb 2. A beam AB is loaded as shown. The beam is pin-connected to the…

A: According to the given details in the question. We need to find reaction at A and tension in the…

Q: 6-89 A beam is supported by a ball-and-socket joint and two cables as shown in Fig. at support A…

A: B (0, 0, 6) C (-7, 0, 3) D (0, 11, 0) E (0, 6, 0) Taking moment about D, ΣMD = 0 ; - 11 j * Ax i -…

Q: The frame for a sign is fabricated from a thin, flat steel bar stock of mass per unit length 4.73…

Q: R 5 m E 5 m D 40 kN 8 5m C 5 m A 60 kN 4

Q: The steel cable is hoisting a 2,000N weight. Assume the weight is not accelerating and the cable is…

A: A pin support will exert both horizontal and vertical components of reaction. The support B is pin…

Q: The light boom AB is attached to a vertical wall by a ball and socket joint at A and supported by…

Q: 20 kg 75 kg 30° 60° Two cylinders having 75 kg and 20 kg mass are connected with a cable and held in…

A: Solution:

Q: 1. The system in the figure is in equilibrium. A mass of 225 kg hangs from the end of the uniform…

Q: Q1/ In the equilibrium position shown in figure below, the uniform bar (AB) has a mass of (50 kg)…

A: given data:- mass of rod = 50 kg find the tension in the cable and reaction at B.

Q: Q) The member shown in Figure below is pin connected at A and rests against a smooth support at B.…

A: For the given member To determine Pin reaction at A

Q: The truss is subjected to the system of forces as shown in the following figure. The truss is…

A: Given data The truss is subjected to the system of forces as shown in the following figure. The…

Q: 9. The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the…

A: An object is considered to be in a condition of equilibrium when all of the forces acting on it are…

Q: The member shown in Fig. 3-11a is pin connected at A and rests against a smooth support at B.…

Question

The truss is subjected to a mass of 400 kg as shown in the following figure. The truss is supported by a pin at A and a
roller at D. The reaction at roller D is equal to.
3 m
-2 m
1.5 m
0.5 m
0.5 m
E
F
1.5 m
C
1.5 m
400 kg
5:01 AM
O )) G ENG
1/29/2021
A,

Select one:
O a. 3815 N
O b. 4316 N
O c. 3925 N
O d. 4618 N

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

A non prism elk- bar ABC made up of segments AB(length £,, cross-sectional area .Inland BC (length i-,, cross-sectional area A2) is fixed at end A and free al end C (see figure). The modulus of elasticity of the bar is E. A small gap of d intension s exists between the end of the bar and an elastic spring of length Lj and spring constant k3. If bar ABC only (not tin? spring} is subjected to temperature increase A3", determine the following. (a) Write an expression for reaction forces R^ and RDif the elongation of /I BC exceeds gap length s. (b) Find expressions for the displacements of points B and C if the elongation of ABC exceeds gap length s.
A conductor with a specific gravity of 40.10-3 kg/m.mm2 was drawn between two poles, which are given in the figure and erected on a valley slope, with a tension of 10 kg/mm2. Accordingly, find the conductor stress at the high suspension point. Please answet in short i willl like please dont reject this question answer short...
The three-bar truss in Fig. a is subjected to a horizontal force of 5 kip. If the cross-sectional area of each member is 0.20 in2, determine the horizontal displacement at point B. E = 29(103) ksi.
A transmission cable 300 m long, weighs 600 kg. The tensions at the ends of the cable are 400 kg and 450 kg. Find the distance of its lowest point to the ground. Choices: 150m ,153m , 148m , 145m
A conductor with a specific gravity of 40.10-3 kg/m.mm2 was drawn between two poles, which are given in the figure and erected on a valley slope, with a tension of 10 kg/mm2. Accordingly, find the conductor stress at the high suspension point. Please answer in short i will like and dont reject please its urgent...
A uniform bar 3.00 m long is held by ropes at the ends making angle 60.0 and 30.0,respectively, with the horizontal. A weight of 200 N is hung 0.500 m from the leftend where the 60.0 rope is attached. Find the tension in the ropes (T1 & T2) andthe weight (W) of the bar
An aquarium tank holds salt water (RD 1.015) to a depth of 2.9 metres and has sides inclined at 75o to the horizontal. An access door A-B, measuring 1.1 metres by 1.1 metres, is pivoted at the base of the door (B) and held shut by a bolt at the top of the door (A). What is the tensile force in the bolt at point A.
Two bars are subjected to F=20 kN force as shown in Figure and atemperature rise of 100 0C. DetermineReaction forces at the walls A and B. The change in length of the bronze bar
the facade of a house consists of two cylindrical pillars placed at 1 m at the ends of a beam, these pillars support a steel beam of 320 kg and 6 m in length. the center of mass of the beam is at 2.8 m starting from the left end. at each end a new circular column was placed in order to raise a second floor, each of these columns has a mass of 120 kg. if it is considered that the structure must support 2100 kg distributed every 1.5 m, what will be the reaction of each column in the lower zone?
Two gondolas on a ski lift are locked in the postion show in the figure while repairs are being made elsewhere.The distance between support towers is L = LOO ft.The length of each cable segement under gondolas weighing WB= 450 lb and Wc=650 lb are DAB=12 ft, DBC=70 a , and DCB=20 ft . The cable sag at B is AB = 3.9 ft and that C is A = 7.1 ft.THe effective cross-sectional area of the cables is Ae=0.12 in". (a) Find the tension force in each segment; neglect the mass of the cable. (b) Find the average stress(σ) in each cable segment.
Three cylinders are piled up in a rectangular channel as shown in the figure. Determine the reactions at the all the points of contact. Cylinder A:Radius=4cm ,m=15kg Cylinder B:Radius=6cm,m=40 Kg Cylinder C: Radius = 5cm,m= 20kg
A 15,000 N crane pivots around a friction-free axle at its base and is supported by a cable making a 25∘ angle with the crane (Figure 1). The crane is 16 m long and is not uniform, its center of gravity being 7.0 m from the axle as measured along the crane. The cable is attached 3.0 m from the upper end of the crane. 1. When the crane is raised to 55∘ above the horizontal holding an 11,000 N pallet of bricks by a 2.2 m very light cord, find the tension in the cable. 2. Find the horizontal component of the force that the axle exerts on the crane.