4.) The uniform 4-kg rod AB is supported by a ball-and-socket joint at A and by the cord CG that is attachedto the midpoint G of the rod as shown in the figure. The rod leans against a frictionless vertical wall at B.Determine the reactions at A and B and the tension in cord CG. [Answer: T = 20.8 N, Ax= -14.7 N(down), Ay= 29.4 N, Az11.0 N, B= 29.0 N, where the positive answer indicate the reaction goes in thepositive direction of the respective axis and vice versa]Hints: Note the given mass from which you need to calculate weight.IF G is is the midpoint of the rod, then the x, y, z coordinates of that point can be taken to be halfthe x,y,z components of the position vector FAB150 mm,B400 mm0150 mm600 mG

Answered: Image /qna-images/answer/d37ec6a0-7bb7-4e20-a79c-50059efe6bb6.jpg

joint at to the midpoint G of the rod as shown in the figure. The rod leans Determine the reactions at A and B and the tension in cord CG. [Am (down), Ay= 29.4 N, Az - 11.0 N, B= 29.0 N, where the positive am positive direction of the respective axis and vice versa] Hints: Note the given mass from which you need to calculate weig IF G is is the midpoint of the rod, then the x, y,z coordinates the x, y, z components of the position vector F- 150 mm 21

joint at to the midpoint G of the rod as shown in the figure. The rod leans Determine the reactions at A and B and the tension in cord CG. [Am (down), Ay= 29.4 N, Az - 11.0 N, B= 29.0 N, where the positive am positive direction of the respective axis and vice versa] Hints: Note the given mass from which you need to calculate weig IF G is is the midpoint of the rod, then the x, y,z coordinates the x, y, z components of the position vector F- 150 mm 21

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: Problem 3. Determine the support reactions given the figure below.

Q: Refer to Fig. P3–37. Determine the reactions at the supports of the beam due to the 500-N load shown…

Q: A 1500 N sphere is resting in a trough as shown in Figure. Determine the reactions developed at…

A: Given Data W=1500 N

Q: 2.) The plate is supported by a pin in a smooth slot at B. What are the reactions at the supports?…

A: Given:The diagram of the problem is given below;

Q: 05: A railway bridge consisting of a truss construction as shown in the Figure 3, this truss is…

Q: 300 N 4 400 N P Q/ The figure above is in equilibrium find the value of the angle and find the value…

Q: Consider the frame shown in (Figure 1). Suppose that F = 600 N. A) Determine the reaction at…

Q: For the system shown in Figure , calculate the tension AB, mass m, and applied force P to keep the…

Q: The sign's mass is 7.20 kg. (a) Calculate the tension in newtons in the chain assuming no friction…

Q: The bent pipe ABCD lies in the ry-plane and bends through 90° at C and supports a hanging weight W…

A: Draw the free body diagram of the bent pipe:

Q: Find DF, CD, FE, DE

Q: beam shown in figure below. Also determine the magnitude of the resultant force (Ri, and the…

A: Consider the free body-diagram of the system as shown below.

Q: Q3a) Determine the reaction moments at the supports by using Moment-Distribution Method. Assume A…

A: Moment Distribution method is used to analyze statistically indeterminate beams and rigid frames.…

Q: CE is a 10 m beam supported at point E by a ball and socket joint. Ball and socket joints provide…

Q: 4-83. Determine the reactions at A for the beam shown in Figure P4-83. FIGURE P4-83 77///////// B 15…

A: Given: w = 300 lb To find: reaction at A

Question

4.) The uniform 4-kg rod AB is supported by a ball-and-socket joint at A and by the cord CG that is attached
to the midpoint G of the rod as shown in the figure. The rod leans against a frictionless vertical wall at B.
Determine the reactions at A and B and the tension in cord CG. [Answer: T = 20.8 N, Ax= -14.7 N
(down), Ay= 29.4 N, Az
11.0 N, B= 29.0 N, where the positive answer indicate the reaction goes in the
positive direction of the respective axis and vice versa]
Hints: Note the given mass from which you need to calculate weight.
IF G is is the midpoint of the rod, then the x, y, z coordinates of that point can be taken to be half
the x,y,z components of the position vector FAB
150 mm,
B
400 mm
0
150 mm
600 m
G

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: Write the position vectors.

VIEW

Step 2: Determine the value of reaction at B and tension force.

VIEW

Step 3: Determine the values of reaction supports-

VIEW

Solution

VIEW

Step by step

Solved in 4 steps with 8 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 overhanging beam is supported by a pin at A and the two force strut BC as shoen in figure. A) contrust the free body diagram of overhanging beam. B) write all the equation of equilibrium. C) calculate the reaction at B on the beam. D) calculate the horizantal and vertical of reaction at A.
Part D - A tractor shovel The tractor shovel shown (Figure 4) carries a 550 kg load that has its center of mass at H. The shovel's dimensions are: a = 52.0 mm, b = 208 mm, c = 312 mm, d = 104 mm, and e = 364 mm. Find the reaction force at E. Assume that the positive direction of the a and y axes is to the right and upward, respectively. Figure 4 of 4 Enter the Cartesian components of the reaction force at E separated by a comma. Express your answers in newtons to three significant figures. • View Available Hint(s) 30° 30° B ΑΣφ vec Ez, Ey = H. Submit b 2h Next > Provide Feedback
See attached problem
A 27‑kg sing is attached to the right end of a horizontal beam (the beam's mass m = 7.7 kg). The left end of the beam is mounted into a wall and it's right end is supported by a string which makes an angle θ = 32° with the beam, see the picture below. Find the magnitude of the tension in the string. 1. The tension in the string, T Find the reaction force exerted by the wall on the beam. 2. The x component of the wall's reaction force, Rx = 3. The y component of the wall's reaction force, Ry =
Example 3 300 N 3 4 400 N Q/ The figure above is in equilibrium find the value of the angle and find the value of the force P
Please writte Answer by hand Thank You
How to solve this question step by step
Pervin bhai
please list the reactions at A from the options below
The simply supported beam is subjected to the loads as described in the figure and parameter table. Neglecting the thickness of the beam, calculate the horizontal and vertical support reactions at A and B. F A B C -4*- L3 parameter value units L1 L2 L3 ft 4 ft 6 ft theta 65 F 200 lb M 500 lb-ft For the answers, take to the right and up to be the positive directions. The support reaction at A in the z direction is NAz- lb The support reaction at A in the y direction is NAy- lb The support reaction at Bin the z direction is NB= lb The support reaction at Bin the y direction is NBy= lb
Help me with STATICS OF RIGID BODIES
- For the frame of the figure:a) Draw up the free-body diagram of the three elements that compose it, for the BCD element, set theequilibrium equations (summation of forces along the longitudinal axis "t" and the perpendicular "n", as well as thesummation of moments at point C). Note: it is not required to evaluate the reactions or the charges on the elements.b) Make a cut at the midpoint between C and D and “CALCUE” the internal loads numerically.