1-6 Two cables BC and BD are used to support thefixed bracket at B as shown. Cable BD exerts atension of 1.27 kN on the bracket.a) Explain with a simple diagram how theresultant of two forces in three-dimensionalspace can be computed.ROLb) (i) Express the tension in cable BC in a vectorform. (ii) What is the projection of this tensionon line OB? (iii) Find the angle between linesOB and BD. (iv) If the y component of thetension in cable BC is equal to that of the ycomponent of the tension BD, determine thetension in cable BC.c) Without any calculation, assess the magnitudeand direction of the force exerted by the cableon the hook at D. ¹10.4 myB0.3 m,A[b) (i) IBD = 2001 - 1200j + 360k N; (ii) Tco=1116 N; (iii) 41.3⁰; (iv) TBC= Figure1304 N]0.5 m.P1-6X0.36 m,1.2 mD0.5 mN

Answered: Image /qna-images/answer/29c2d2a5-d198-407c-9ee2-cbf503339e24.jpg

Two cables BC and BD are used to support the fixed bracket at B as shown. Cable BD exerts a tension of 1.27 kN on the bracket. a) Explain with a simple diagram how the resultant of two forces in three-dimensional space can be computed. ROLE

Two cables BC and BD are used to support the fixed bracket at B as shown. Cable BD exerts a tension of 1.27 kN on the bracket. a) Explain with a simple diagram how the resultant of two forces in three-dimensional space can be computed. ROLE

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: The following concurrent forces are acting on a body in xy plane: A 300 lb pointing up to the right…

Q: Two cables A and B are attached to a hook. Cable A exerts a pull with a magnitude and direction…

Q: Determine the magnitude of the resultant R for the F1 and F2 combination. b) Where should the…

Q: Three coplanar forces are given as follows: A=6 N at 250°, B= 10 N at 120°, and C = 16 N at 205°…

Q: O5) The motor mounted on the bracket is acted on by its 300 N weight, and its shaft resists the 200…

A: Data given - force along x- direction, Fx =-200 i` N Write the force along y-direction, Fy = 0 j`…

Q: 03) For the concurrent coplanar korce system shown below, calculate the magnitude and the slope of…

A: Mechanical Equilibrium: A body is said to be in mechanical equilibrium if it satisfies the following…

Q: the vertical post is secured by three cables. the cables are pre-tensioned so that the resultant of…

A: There are two types of forces that are acting on a circular surface. One type of force is Radial…

Q: Five forces are acting on the cantilever beam AB. Find the resultant or a couple acting on the…

Q: The force P = 2 kips is applied to point A, and is supported by cable AB, cable AC, and bar OA. The…

Q: 2. (a) Find the resultant of these three forces in vector form. (b) Find the magnitude of part (a)…

A: Given

Q: A moment and four forces are applied to a two-dimensional frame as shown in figure below. Replace…

A: The given figure shows the moment and four forces are applied to a two-dimensional frameTo…

Q: 1. Two forces acting at point and angle between them is 120°. The larger force is of magnitude 80 N…

A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…

Q: ig.1 0.5kN 0.4kN 0.6kN 45° y B 1.2m 0.3kN 0.3m 0.9m 0.8m x

Q: The vertical force with magnitude 75 lb acts downward at A on the two-member frame shown in the…

A: Given: To determine the magnitude of the forces acting in members.

Q: [2] The cable stays AB & AD help support pole AC, which is 2.5 m tall. The tension is 500 N in AB…

A: 22

Q: ane shown in the figure below is subjected to three coplanar forces. Replace this ➡ an equivalent…

A: Given: The first force acting on crane is, F1=175 lb. The second force acting on crane is, F2=60 lb.…

Q: 1. A ball (B) is stopped on inclined surface 30° with horizontal by a horizontal force p = 100 N. a.…

Q: Find the resultant force for the forces shown by (a) using the parallelogram law and (b) by…

Q: For the loaded plate shown, four parallel forces are applied Three of the 4 forces are shown. The…

A: Given:To find:(a) Force P and its line of action.(b) MATLAB code.

Q: Figure 5(a) shows a car seat installation robot. It does the job of three people lifting and…

Q: A 50 mm C D В 100 mm 40 mm

A: P=80N (a) M = Equivalent Moment at B M = PX50=4000Nmm M = 4Nm

Q: Consider the two forces Fi en F2 acting on the post in Hibbeler (edition 14) Problem 2.134 P 3.1…

A: F1=400sin35…

Q: 5. A transmission tower is held by three guy wires attached to a pin at A and anchored by bolts at…

A: (a) To find: The force exerted by the tower at point A. Given: The tension in the wire AB is TAB=110…

Q: Find the magnitude, and direction of the resultant force with reference to A of the forces shown in…

Q: 6 m

A: Given Data: Moment on the rectangular plate :

Q: the force of system shown in the figure below, determine the resultant and locate with respect to…

A: For solution refer below images.

Q: 3.64 The resultant of the force-couple system acting on the frame is a force R acting at point A.…

A: Find the resultant force R and a horizontal force P when the resultant passing through the point A

Q: A moment and four forces are applied to a two-dimensional frame as shown in figure below. Replace…

Q: Q.5) A weightless Collar C is attached to the cable CD and can freely slide on the cylindrical bar…

Q: Three forces as shown on the figure are acting at point A. If the tension in cable AC is 889 N,…

A: The unit vector from point A to point C can be determined as, The force in the wire AC can be…

Q: Ice skating is an example of. Select one: O No friction O Static friction O Dynamic friction O…

A: Solution: Note: Dear Student! As per our guidelines, we are only allowed to answer a single…

Q: E Replace the two forces showa in figuit(5) by a singk equivalent force (R). Specify the distance…

Q: 2. The tension in both ropes is 70 lb. Find the magnitude and direction of the resultant force at B.…

A: The coordinates of the All the points are as follows-

Q: 5. A transmission tower is held by three guy wires attached to a pin at A and anchored by bolts at…

A: Given: The tension in wire AB, TBA = 110 lb

Q: A couple of magnitude M= 54 lb·in. and the three forces shown are applied to an angle bracket. (a)…

A: The free-body diagram is plotted as shown below, The resultant forces in the bar is given as,…

Q: k wise. Find the forces vn in (Eia Fic

Q: M 10 lb -12 in.- 25 lb 60° in. 40 lb PROBLEM 3.114 A couple of magnitude M = 80 lb-in. and the three…

Q: 200 lb/ft 150 lb/ft B -6 ft- -3 ft- -3 ft- A distributed load and force F (570 lb) are applied to a…

A: The total load due to distributed load will be - w = 12150+200×6 = 1050 lb Let RA and RB be the…

Q: Q3) For the concurrent coplanar force system shown below, calculate the magnitude and the slope of…

A: Mechanical Equilibrium: A body is said to be in mechanical equilibrium if it satisfies the following…

Q: Five forces and a couple act on the plate shown in the figure . - Find the resultant ( R ) Of the…

Question

1-6 Two cables BC and BD are used to support the
fixed bracket at B as shown. Cable BD exerts a
tension of 1.27 kN on the bracket.
a) Explain with a simple diagram how the
resultant of two forces in three-dimensional
space can be computed.
ROL
b) (i) Express the tension in cable BC in a vector
form. (ii) What is the projection of this tension
on line OB? (iii) Find the angle between lines
OB and BD. (iv) If the y component of the
tension in cable BC is equal to that of the y
component of the tension BD, determine the
tension in cable BC.
c) Without any calculation, assess the magnitude
and direction of the force exerted by the cable
on the hook at D. ¹1
0.4 m
y
B
0.3 m,
A
[b) (i) IBD = 2001 - 1200j + 360k N; (ii) Tco=1116 N; (iii) 41.3⁰; (iv) TBC= Figure
1304 N]
0.5 m.
P1-6
X
0.36 m,
1.2 m
D
0.5 m
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: Given Data:

VIEW

Step 2: Procedure to find Resultant:

VIEW

Step 3: To find TBD:

VIEW

Step 4: To Find Projection:

VIEW

Step 5: Finding Angle:

VIEW

Step 6: Finding TBC:

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 7 steps with 9 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

1. Illustrate the resultant of the concurrent force system using the following problem. Determine the resultant of the forces on the bolt. 100 N 150 N 100 N 20 150 N 30 15 120 N 80 N 120 N 80 N
Part II: Determine the magnitude of force F3 if the resultant of all three forces is directly above the support at B. F=100 lb. 4' 6' F₂=200 lb. 6' 6' C
Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Consider three forces A, B, and C, where A = 165 N, B = 140 N, and C = 225 N. A collar that can slide on a vertical rod is subjected to the three forces shown. C B Determine the required value of a if the resultant of the three forces is to be horizontal. The required value of a for the resultant of the three forces to be horizontal is
3. The hinged door shown has a chain attached at point C connected to point B. It has a tension force of 250 N. To maintain the door in that position shown, what is the magnitude of the moment of the axis where the hinges are attached? 2.5 m 1.5 m Fc = 250 N. 30 1 m 0.5 m
Find the values for F; and 0 such that the resultant of the 3 forces acting on the bracket lies on the u axis and has a magnitude of 250 lbs. 45° 70° = 120 lbs F: = 40 Ibs CD
A 10-m steel pole is supported by a ball and socket joint at O and held by three cables, DE, DF, and DG. Note the following properties of the three tension forces acting on point D: Force DE = 250N, on the x-y plane Force DF = 300N, 8 = 15*, ¢ = 20° Force DG = (125i-125j - 125k) N 7.5m 10mm :
4. The block shown is acted on by its weight W=400 lb, a horizontal F=600 lb, and the pressure P exerted by the inclined plane. The resultant R of these forces is parallel to the incline. Determine the values of P and R.
2. The resultant of the three cable forces pulling on A is vertical and equal to the weight, W, of the suspended object. All three cables are in ten- sion. (They pull on the ring at A.) If the angles ß and y, as well as the weight W and forces FAB and FAc in cables AB and AC, respectively, are given, what are the force FADİN cable AD and the angle 8 in terms of given quantities? B D. A
Two Camels on the opposite river banks pull a floating crate moving parallel to the bank by means of two ropes. The tension of these ropes is 300 kN and 250 kN, while the angle between them is 75 deg. Find the Resultant pull on the crate and the angle between each rope with the horizontal axis