During crash testing of an automobile, the lap and shoulder seat belts develop tensions of F = 260 lb. Treating the buckle B as a particle, determine the tension T in the anchor strap AB and the angle at which it acts. Use the force components method. Find the horizontal and verticalcomponents T, and Ty. Use your solution for T, and Ty to determine the magnitude T and direction 0 of the anchor strap's tension.60°F(Express your answer using three significant figures.)T, =]lb(Express your answer using three significant figures.)Ty =||lb(Express your answer using four significant figures.)T =lb(Express your answer using two significant figures.)counterclockwise from the negative x-axis.

Answered: Image /qna-images/answer/e5b42f2b-54dd-4429-810d-ac04ed06dfb3.jpg

Answered: During crash testing of an automobile,…

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

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Q1) A man is pulling a spring of stiffness coefficient 8 Ib/in by his hand with the entire arm held horizontally rotating about shoulder joint O; this force acts at the 21° angle is shown. Determine the force exerted by the deltoid muscle on the upper arm at A and x- and y- components of the force reaction at the shoulder joint. The weight of the upper arm Wu = 4.1 Ib, the weight of the lower arm W1 2.4 Ib, and the weight of the hand WH= 0.9 Ib; all these weights act at the locations shown in the figure. the spring extended 1 in only as shown in figure 1. A tensile force in the deltoid muscle prevents the arm from A- 8 Ibin Equilibrium x-1 in Deltoid muscle Fo A YW, YW -5.2 16.5 25.4 Figure 1
W=200# word by zonil risdi vino 2.11 A laborer is hoisting a weight, W = 200#, by pulling on a rope as shown. Determine the force F required to hold the weight in the position shown if the resultant of F and W acts along the axis of the boom. 20 2X51290104 29buliogom silint 808 30 q12
A string has a tension T = 5.3 Newtons and connects the two blocks of m1 =3.0 kg and m2 =11.7 kg. Find the value of force F in Newtons assuming the friction is negligible. (only numbers in the box)
a) As shown in the image given, a 69-kg crate is supported at equilibrium. The angles alpha=112 degrees. beta=145 degrees and the V =64.3 degrees. The coordinates of point D are (-2.2, 5.6, 3.2)m, and the spring constant k=1170N/m. Determine the stretch in the spring, in m which must be rounded to 3 places after the decimal point. Take g=9.81m/s^2. b) As shown in the image given, a 63-kg crate is supported at equilibrium. The angles alpha=112 degrees. beta=145 degrees and the V =64.3 degrees. The coordinates of point D are (-2.4, 5.5, 3.7)m. Determine the tension force in cable AC, in N. Take g=9.81m/s^2. c) As shown in the image given, a 64-kg crate is supported at equilibrium. The angles alpha=112 degrees. beta=145 degrees and the V =64.3 degrees. The coordinates of point D are (-2.2, 5.4, 3.2)m. Determine the tension force in cable AD, in N. Take g=9.81m/s^2.
Find the force in member AB of the truss and indicate whether it is in Tension or Compression, given: F = 35 lbs, θ = 46 °

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