Determine magnitue, angle of the resultant force and location of it from E, consideringthe structural element having a seif weight of W KN/m (Where, W=1+3). Also calculatesupport reactions at A and E by using equilibrium equations.40 kN80 kN50 LNte toE3m3m5m5mFig-03Hints: Self weight acts as uniformly distributed load throughout the length. While calculatingmoments, the action of total self-weight will be considered to be working right at the mid point ofthe beam.

Answered: Image /qna-images/answer/5f30b983-4d40-4396-b71c-e7a616870c0d.jpg

Determine magnitue, angle of the resultant force and location of it from E, considering the structural element having a seif weight of W KN/m (Where, W=1+3). Also calculate support reactions at A and E by using equilibrium equations. 40 kN 80 kN 50 LN to 3m 3m 5m 5m Cis o

Determine magnitue, angle of the resultant force and location of it from E, considering the structural element having a seif weight of W KN/m (Where, W=1+3). Also calculate support reactions at A and E by using equilibrium equations. 40 kN 80 kN 50 LN to 3m 3m 5m 5m Cis o

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

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter10: Virtual Work And Potential Energy

Section: Chapter Questions

Problem 10.50P

See similar textbooks

Related questions

Q: What is the magnitude of the reaction at point E? 40 kN 20 kN/m 100 kN-m |C D - 2 m 2 m 2m -

Q: The member (shown to the left) is subjected to the force at the lower right corner, and is…

Q: If the weight of homogenous bar AB is 10kN, F is 30kN, and bar AB is in equilibrium... Calculate the…

Q: 4000 N 1.0m 2.0 m 20m 2000 N

A: ∑Fx=0Fcosθ+4000=0Fcosθ=-4000N .....(1)∑Fy=0Fsinθ-2000=0Fsinθ=2000 ........(2)

Q: Determine the vertical force P that must be applied at C to maintain the equilibrium of the linkage.…

Q: 2 kN/m 2 m 10 kN 4 m 2 m 5m

A: Determine the point load corresponding to the point load. W=2 kN/m·5 m=10 kN So a point load of 10…

Q: Show how to find the force needed to move the top block. Use reasonable data and use an equilibrium…

A: Drawing the free body diagram of the given figure: -

Q: A vertical load P is applied at end B of rod BC. (a) Neglecting the weight of the rod, express the…

A: Given Data: The load applied at point B is The counterweight is W. The angle of the inclination of…

Q: 9. A member ABCD is subjected to point loads P1, P2, P3 and P4 as shown below. Calculate the force…

A: Given data: The magnitude of the force P1, P1= 45 kN. The magnitude of the force P3, P3= 450 kN.…

Q: The cable and spring system attached at the ring at A, is kept in equilibrium by the force F = 760N.…

A: Consider the diagram shown below. Here,

Q: Determine the reactions at A and E if P = 400 N. What is the maximum value which P may have for…

Q: PROBLEM 1.Thestructure shown is held in equilibrium by a cable and fixed support at A. Calculate the…

A: Draw the free body diagram of the given arrangement. From the given figure find the angle BDC.…

Q: 5) Find the true magnitude and direction of the forces at the supports A and B at static equilibrium…

A: Given: 400 lb weight is attached to the roller and the weight of AB is 100 lb.

Q: Draw a complete free-body diagram for the system. Calculate the reactions at both supports needed…

A: i) Free body diagram where, RA= Vertical reaction force at A RC= Vertical reaction force…

Q: Determine the weight W and the horizontal and vertical components of the pin reaction at A for…

A: Disclaimer: Since it is not mentioned in the question that which questions are to be done. So I am…

Q: P: 2 KN 0.Sm OF o.cm - -o. 3 m→ The 0.5 m long rods AC and BD are made of Aluminum and each has a…

A: AC=0.5M , BD=0.5M A=200MM , (C/S AREA) AC & BD made of aluminum

Q: Ihas a weight of 4 Ib/ft. I is supported by a bail- ket joint at C and a journal bearing at D. The…

Q: Determine the horizontal reaction at the support A for equilibrium of beam AB. 400 N/m 200 N/m 3 m

Q: loads. 25, 3860 N L--x 2.4 m D. 3.4 m 3.4 m Answers:

Q: Cable AB passes over the small ideal pulley Cwithout a change in its tension. What length of cable…

A: Given: m= 75 lb θ=41o Tension T in cable CD=? Cable AB passes over the small ideal pulley C without…

Q: amount of force on the backbone of the person transporting the load? Do an equilibrium analy explain…

A: The best place to put it is to reduce log 5 the amount of force on the person's backbone that the…

Q: Example Neglecting weight, determine M if the link is in equilibrium. 150 mm M 150 mm 60° 30°

A: Draw the free body diagram for the above problem.

Q: The load F on the rigid body shown below is supported by roller support at B and fixed support at A.…

Q: lf the weight of h0m0genous bar AB is 10kN, F is 30kN, and bar AB is in equilibrium. Calculate the…

Q: 2. The structure shown is in equilibrium and its weight is negligible. Be- cause of the roller, the…

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: Determine the force p and friction force to kept the block (1000 N ) in equilibrium Fig (4). Figure…

A: W=1000 N

Q: 3) Find the true magnitude and direction of the forces at all the supports A and B of the truss at…

A: Apply the conditions of equilibrium ∑Fx=0-2000-Bx+1500=0Bx=-500lb ∑Fy=0Ay+By=1200

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: Given the truss supported by cable AB and pin C – (1) draw the free-body diagram (FBD) of the truss…

Q: Determine the reactions at A and E if P = 500 N. What is the maximum value which P may have for…

Q: 3. On the truss shown, determine the all reactions that will make the structure in state of…

Q: Determine the reactions at the supports for the structure shown in the following figure. 45 kN/m 100…

Q: 1) Find the true magnitude and direction of the forces at the supports A and B in the case of static…

A: Given, Load 1 = 100 lb Load 2 = 200 lb UDL= 100 lb/ft

Q: Determine the reactions at A and E if P = 470 N. What is the maximum value which P may have for…

Q: 2. For the structure shown, determine the weight (W) that can be suspended for the system to be in…

A: (a) Draw the free-body diagram except ABC link.

Q: Determine the vertical force P that must be applied at G to maintain the equilibrium of the linkage.

A: Displace the given linkage by a smaller angle using a force P at point G in the downward direction…

Q: The unstretched length of spring AB is 1 m. If the block is held in the equilibrium position shown,…

Q: Determine all the reactions of the given structure. The surface against which the support Dis…

A: For ease in moment calculation, we will represent UDL of 6 kN/m in 4 m span with 24 kN force at the…

Q: Determine the force in the cable OC and the elongation of the spring OA, OB necessary to support a…

A: Spring force is the reaction exerted by the spring which is required to bring the spring back to its…

Q: (0) Determine the reactions at A and E if P= 970 N. The reactions are positive if to the right or…

Q: Find the true magnitude and direction of the forces at all the supports A and B of the truss at…

Q: :Determine the force P needed to lift the load. Also, determine the proper placement x of the hook…

Q: Find the Reactions of support? 9 kN-m 6 kN A B C 3 m - 3 m 3 m 45°

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

Q: 15° 400 N 600 N B 4 m -8m

Q: Determine the horizontal reaction at the support A for equilibrium of beam AB. 400 N/m 200 N/m 4 m 3…

Q: If the homogenous bar in equilibrium weighs 30ON, what is the magnitude (kN) of the tension support…

Q: 3. The three-hinged arch is subjected to the loading shown. Determine the reaction components. Show…

Q: dz in the figure. A load F1 6.92 N is applied and the operator applies a load P to counter. The…

Concept explainers

Chemical and Phase Equilibrium

Phase diagrams or equilibrium phase diagrams are the graphical representations that show the phase transformations of the constituting elements with respect to the pressure, temperature, and compositions. The diagrams show the conditions that limit the different phases, namely solid, liquid, and gas. The diagram can also be utilized to verify the relations between the state variables. Most of the phase diagrams are temperature-pressure phase diagrams, with the variable parameter as the composition. Usually other variables such as solubility and pressure parameters are not indicated in the phase diagram. For a one-component system (unary phase diagram), the phase diagram is generally a function of temperature and pressure as the state variables, or temperature and volume. However, for a binary system (two-phase) having two components, the phase diagram is a function of temperature and composition as the state variables only. Coexisting of the different phases of the constituting elements is indicated in the phase diagram. A ternary phase diagram can be characterized by consisting of three phases in equilibrium.

Question

Determine magnitue, angle of the resultant force and location of it from E, considering
the structural element having a seif weight of W KN/m (Where, W=1+3). Also calculate
support reactions at A and E by using equilibrium equations.
40 kN
80 kN
50 LN
te to
E
3m
3m
5m
5m
Fig-03
Hints: Self weight acts as uniformly distributed load throughout the length. While calculating
moments, the action of total self-weight will be considered to be working right at the mid point of
the beam.

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 3 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

The 14-kN weight is suspended from a small pulley that is free to roll on the cable. The length of the cable ABC is 20 m. Determine the horizontal force P that would hold the pulley in equilibrium in the position x=5m.
If the h0m0gen0us bar in equilibrium weighs 300N, what is the magnitude (N) of the tensi0n supp0rt at p0int C?
Determine the reactions at A and E if P = 310 N. What is the maximum value which P may have for static equilibrium? Neglect the weight of the structure compared with the applied loads.
A spring with a torsional stiffness k is attached to the hinge at B. It is unstretched when the rod assembly is in the vertical position. Determine the weight W of the block that results in neutral equilibrium. Hint: Establish thepotential energy function for a small angle θ, i.e., approximate sin θ ≈ 0, and cos θ ≈ 1 - θ2/2.
Determine the reactions at A and E if P= 470 N. What is the maximum value which P may have for static equilibrium? Neglect the weight of the structure compared with the applied loads. pls show the step by step solution
lf the weight of h0m0genous bar AB is 10kN, F is 30kN, and bar AB is in equilibrium. Calculate the magnitude (kN) of the reacti0n at point C.
The mass of crate D is held in position by two blocks, B and C, which are attached to the ring at A. The angle that rope AC makes in a counterclockwise direction from the positive x-axis is theta=30 rad as shown. The mass of block B is equal to that of C, mB=mC=158 kg a) draw the free body diagram of the point of equilibrium b) write down the static equilibrium equations c) determine the angle phi and tge weight of block D f) why will point A be the midpoint between B and C? Explain e) if all three weights are equal can equilibrium be maintained?
Determine the force in the cable OC and the elongation of the spring OA, OB necessary to support a box of mass (M) 400 kg as shown in the figure below. If a = 4 m, b = 5 m, c = 3 m, k1= 5000 N/mm and k2= 4000 N/mm. All calculation using equilibrium of particles equation and must be in Newton (N) and with FBD
The jib crane is pin connected at A and supported by a pin connected collar on smooth rod at B. If x = 6.0 ft , determine the reactions on the jib crane at the pin A and smooth collar B. The load has a weight of 5500 lb Determine the reactions on the jib crane at the pin A Determine the reaction at B
Determine the magnitude of the force PP required to hold the 140-lblb weight in equilibrium.
The sign has a mass of 150kg with center of mass in G. Draw the free body diagram and determine the components along x,y,z of the reaction in ball joint A as well as the tensile strength in wires BC and BD(Caution : they are two different wires). g=9.81m/s²
Determine the magnitude of the reaction at support A, in kip. If: P = 276 lb, h = 14 in., A = 25 in. b = 9 in.